Siqun Wang Publications List

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Refereed articles or reviews

He, Q., J. Xiong, H. Wang, L. Xie, X. Chai, L. Zhang, S. Wang, G. Du, and K. Xu. 2025. A Comparative Study on Absorption of Gaseous Formaldehyde by Electrospun Biomass Carbon Nanofiber Membranes Modified by Plasma Activation and Chemical Treatment. Molecules, 30, 2184.

Mu, G., ., X. Li, D. Hou, Y. Zhang, K. Zhao, F. Su, Q. Li, S. Wang, X. Zhou, and K. Xu. 2025. Highly-efficient defibrillation of bamboo-based lignin-coated cellulose nanofibrils via facile hydrothermal and ethanol solvothermal pretreatments. Industrial Crops and Products, 234, 121554.

Saedi, S.*, Z. Zhou*, M. Li, and S. Wang. 2025. Preparation of PFAS-free oil-resistant paper using a lignin-based resins. Food Packaging and Shelf Life, 52: 101640.

Wang, E, S. Wang, W. Zhang, C. Dai, K. Sheng, and J. Huang. 2025. Synergistic charge and proton transfer–assisted lignin‑based conductive and superhydrophobic coatings for non‑strain raindrop monitoring. Advanced Composites and Hybrid Materials, 8, 408.

Wang, G., X. Li, X. Xiong, and S. Wang. 2025. Optimization of drilling processes in panel furniture manufacturing: A case study. PLoS One, 5: e0318667.

Xu, Y., J. Han, N. Xu, W. Tao, Y. Chen, Q. Li,, S. Wang, and Q. Wu. 2025. A two‑step method for producing iridescent and tough all‑cellulose liquid crystal films. Cellulose, 32: 5959-5971.

Xu, Y., Z. Zhang, Ewang, Y. Miao, K. Sheng, S. Wang, W. Lu, W. Zhang, and J. Huang. 2025. . Preparation of silane-free porous structure hyperelastic phosphorylated chitosan sponge reinforced with bamboo activated carbon and its efficient PM2.5 removal. Carbohydrate Polymer, 352: 123237.

Zhang, K., C. Zhu, L. Xie, L. Zhang, X. Chai, C. Wu, S. Wang, W. Peng, G. Du, and K. Xu. 2025. Facile fabrication of electrospun hybrid nanofibers integrated cellulose, chitosan with ZIF-8 for efficient remediation of copper ions. Carbohydrate Polymers, 359, 123574.

Zhou, Z*, L. Merrill, X. Zhao, S. Saedi, N. Labbé, T. Wang, and S. Wang. 2025. Sandwich-structured paper composite with water and oil resistance for food packaging and tableware applications. Composites Part B: Engineering, 306: 112763.

Liu, L., F. Yu, S. Wang, and X. Ye. 2024. Synergistic effects of nonthermal plasma and solid acid catalysts in thermo-catalytic glycerol dehydration (invited paper in the Special Issue Topical Advisory Panel Members' Collection Series: Biomass Catalytic Conversion). Catalysts, 14 (11), 790.

Luo, R., R. Li, Z Zheng, L Zhang, L Xie, C Wu, S. Wang, and X. Chai, N. Ma, M. Naushad, G. Du, K. X. 2024. Efficient Cr (VI) remediation by electrospun composite porous nanofibers incorporating biomass with metal oxides and metal-organic framework. Environmental Pollution, 351: 124026.

Saedi, S., A. Sobhan, M. Hoff, S. Wang, K. Muthukumarappan, S. Wang, and S. Wang. 2024. Development of Halloysite Nanotube-Infused Thermoset Soybean Bio-resin for Advanced Medical Packaging. Polymers, 16: 1616.

Sun, G., Y. He, L Xie, C Wu, L Zhang, X Chai, S. Wang, and K. Xu. 2024. Effects of various cold plasma atmospheres and external influencing factors on the adsorption of formaldehyde gas by bamboo-based carbon microfibers. Industrial Crops and Products, 215: 118607.

Wang, E, W. Huang, Y Miao, L Jia, Y Liang, S. Wang, W. Zhang, L. Zhou, and J. Huang. 2024. Conductive and superhydrophobic lignin/carbon nanotube coating with nest-like structure for deicing, oil absorption and wearable piezoresistive sensor. International Journal of Biological Macromolecules, 278:134886.

Xiong, J., R. Luo, Z. Jia, S. Ge, S. Lam, L. Xie, X. Chai, L. Zhang, G. Du, S. Wang, and K. Xu. 2024. Electrospun microcrystalline cellulose/chitosan porous composite nanofibrous membranes modified by non-thermal plasma activation for gaseous formaldehyde adsorption. International Journal of Biological Macromolecules, 256: 128399.

Xiong, J., Y. Wang, H. Wang, L. Xie, X. Chao, L. zhang, W. Peng, S. Wang, G. Du, and K. Xu. 2024. Electrospun biomass carbon-based porous nanofibers modified by green-dry cold plasma for gaseous formaldehyde adsorption. Industrial Crops and Products, 222: 119769.

Xu, Q., J. Ye, Y. Gao, P. Chen, S. Wang, and Q. Wu, Q. Li. 2024. P/N/S-containing cellulose nanofibrils enable curcumin encapsulation via Pickering emulsion based microcapsules. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 690: 133785.

Ye, J., Q Xu, Y Gao, Y Liang, Q Wu, G Wu, S. Wang, and P. Chen, Q. Li. 2024. Flexible, transparent, and fire-proof cellulose nanofibril films with outstanding flame retardancy. Industrial Crops and Products, 211: 118210.

Zhang, L, L. Peng, S. Liang, Z .Chen, S. Lyu, and S. Wang. 2024. Green synthesis of silane-assisted fluorescent carbon dots based on sanding dusts and its application in flame-retardant and anti-leaching wood materials. Journal of Cleaner Production, 446: 141417.

Zhang, Y., Q. Li, Y. Chen, Y. Cao, J. Wang, J. Yang, L. Xie, X. Cai, L. Zhang, S. Wang, and G. Du, K. Xu. 2024. Effects of facile chemical pretreatments on physical-chemical properties of large clustered and small monopodial bamboo microfibers isolated by steam explosion. Industrial Crops and Products, 207: 117747.

Zhou, Z*, K. Rajan, N. Labbé, and S. Wang. 2024. Significantly reducing energy consumption during nanolignin production via high-solid content grinding. Industrial Crops and Products, 211: 118209.

Zhou, Z.*, K. Rajan, S. Saedi, N. Labbé, M. Li, W. Wang, and S. Wang. 2024. A Fully Plant-Based Water- and Oil-Resistant Paper Composite. ACS Sustainable Chem. Eng., 12(50):18043-18057.

Huang, J., M. Li, C. Chen, W. Huang, Y. Miao, Q. Wu, and S. Wang. 2023. Construction of HLNPs/Fe3O4 based superhydrophobic coating with excellent abrasion resistance, UV resistance, flame retardation and oil absorbency. Journal of Environmental Chemical Engineering, 11(1): 109046.

Li, Q., R. Luo, Y. Chen, J. Xiong, B. Qiao, x. Chai, L. Xie, J. Wang, L. Zhang, S. Wang, G. Du, and K. Xu. 2023. The Study on Bamboo Microfibers Isolated by Steam Explosion and Their Comprehensive Propertie. Journal of Renewable Materials, 11(6): 2809-2822.

Lin, J., H. Liu, S. Wang, J. Huang, and W. Zhang. 2023. Preparation and Influence Mechanism of High-Efficiency Bamboo-Based Conductive Carbon Powder by One-Step Carbonization. Journal of Biobased Materials and Bioenergy, 17(1): 14-21.

Liu, L., F. Yu, S. Wang, and X. Ye. 2023. Glycerol dehydration to acrolein catalyzed by silicotungstic acid: effect of mesoporous support. Eng., 4(1): 206-222.

Lyu, S., H. Chang, L. Zhang, S. Wang, S. Li, Y. Lu, and S. Li. 2023. High specific surface area MXene/SWCNT/cellulose nanofiber aerogel film as an electrode for flexible supercapacitors. Composites Part B: Engineering, 264, 110888.

Su, G., J. Xiong, Q. L., S. Luo, Y. Zhang, T. zhong, D. P. Harper, Z. Tang, L. Xie, X. Chai, L. Zhang, C. Wu, G. Du, S. Wang, and K. Xu. 2023. Gaseous formaldehyde adsorption by eco-friendly, porous bamboo carbon microfibers obtained by steam explosion, carbonization, and plasma activation. Chemical Engineering Journal, 455: 140686.

Ye, J., Y. Gao, Q. Xu, Z. Jin, G. Wu, S. Wang, Z. Cai, Q. Wu, and Q. Li. 2023. P/N/S synergistic flame retardant holocellulose nanofibrils efficiently pretreated from ternary deep eutectic solvents. Chemical Engineering Journal, 477, 147142.

Zhang, K., I. Sutton, M. D. Smith, D. P. Harper, T. Wu, and S. Wang. 2023. Ambient-Densified and Curcumin-Functionalized Transparent Wood Film for Smart Food Packaging Window. iScience, in press.

Zhang, L., L. Peng, S. Liang, X. Xie, S. Lyu, and S. Wang. 2023. Poly (vinyl alcohol)/nanocellulose film integrated with phenolic waste-based carbon dots for ultraviolet-blocking and flame retardant applications. Progress in Organic Coatings, 184, 107872.

Zhang, L., Y. Wang, L. Peng, Z. Chen, S. Lyu, and S. Wang. 2023. Self-luminescent wood coatings with carbon dots/ TiO2 grafted afterglow SrAl2O4: Eu, Dy core-shell phosphors for long-lasting formaldehyde removal. Polymers, 15(9): 2077.

Zhou, Z.*, K. Rajan, T. M. Young, N. Labbé, and S. Wang. 2023. Effect of processing temperature on nanolignin processing and quality during ultrafine friction grinding. Industrial Crops and Products, 198: 116685.

Cao, Y., C. Xu, Q. Zhang, C. Jin, S. Wang, and Q. Wu. 2022. An in-situ microscale investigation into the fracture of wood-adhesive interphase by nanoindantation. Construction and Building Materials, 346: 128393.

Chang, H.*, F. Zhang, S. Lyu, and S. Wang. 2022. Flexible and freestanding MoS2 nanosheet/carbon nanotube/cellulose nanofibril hybrid aerogel film for high-performance all-solid-state supercapacitors. ACS Omega, 7（16）： 14390-14399.

Feng, X., Z. Yang, S. Wang, and Z. Wu. 2022. The reinforcing effect of Lignin-containing cellulose nanofibrils in the methacrylate composites produced by stereolithography. Polymer Engineering and Science, 62: 2968-2976.

K. Xu, Q. Li, L. Xie, Z. Shi, G. Su, D. P. Harper, Z. Tang, J. Zhou, G. Du, and S. Wang. 2022. Novel flexible, strong, thermal-stable, and high-barrier switchgrass-based lignin-containing cellulose nanofibrils/chitosan biocomposites for food packaging. Industrial Crops and Products, 179: 114661.

Li, M.*, W. Huang, C. Ren, Q. Wu, S. Wang, and J. Huang. 2022. Preparation of lignin nanospheres based superhydrophobic surface with good robustness and long UV resistance. RSC Advances, 12, 11517-11525.

Li, S., X. He, Z. Zeng, B. Jiang, Q. Wu, L Gong, Y. Li, J. Bae, and S. Wang. 2022. Mechanically ductile, ionically conductive and low-temperature tolerant hydrogel enabled by high-concentration saline towards flexible strain sensor. Nano Energy, 103, 107789.

Li, Y.*, Y. chen, Q. Wu, J. Huang, J. Zhao, Q. Li, and S. Wang. 2022. Improved hydrophobic, UV barrier and antibacterial properties of multifunctional PVA nanocomposite films reinforced with modified lignin contained cellulose nanofibers. Polymers, 14(9): 1705.

Wang, X., Y. Huang, C. Ly, J. Wang, S. Wang, and Y. Yao. 2022. Multi-scale investigation of the mechanical properties of Loblolly pine wood at elevated temperature. Wood Material Science & Engineering, 1-8.

wu, J., Q. Li, G. Su, R. Luo, G. Du, L. Xie, Z. Tang, J. Yan, J. zhou, S. Wang, and K. Xu. 2022. Green, ultrafine cellulose-based porous nanofibrous membranes for efficient heavy metal removal through incorporation of chitosan by various electrospinning ways. Cellulose, 29: 5745-5763.

Xu, C., Y. Cao, Y. Nie, Y. Meng, Q. Wu, and S. Wang. 2022. Large-scale and high-resolution visualization of static mechanical properties of wood-adhesive interphase utilizing nanoindentation mapping. Wood Science and Technology, 56 (4), 1029-1045.

Zhang, L., S. Wang, Z. chen, and Y. Wang. 2022. Preparation of wood functional coatings with carbon dots grafted TiO2 for its photocatalytic degradation of formaldehyde gas. Journal of Beijing Forestry University, 44(1): 113-122.

Zhao, K., C. Ren, Y. Lu, Q. zhang, Q. Wu, S. Wang, C. Dai, W. zhang, and J. Huang. 2022. Cellulose nanofibril/PVA/bamboo activated charcoal aerogel sheet with excellent capture for PM2. Carbohydrate Polymers, 291: 119625.

Cao, Y., P. Yang, X. Li, T. Zhang, W. Chen, S. Wang, and X. Zhou. 2021. Comparative investigation into the interfacial adhesion of plywood prepared by air spray atomization and roller coating. Journal of Wood and Wood Products, 79: 887-896.

Huang, J., M. Li, C. Ren, W. Huang, Q. Wu, Q. Li, W. Zhang, and S. Wang. 2021. Preparation of high-efficiency flame-retardant and superhydrophobic cotton fabric by a multi-step dipping. Coatings, 11: 1147.

Huang, J., M. Li, Y. Liu, C. Ren, S. Wang, Q. Wu, Q. Li, W. Zhang, and X. Liu. 2021. A facile preparation of superhydrophobic L-CNC coated meshes for oil-water separation. RSC Advances, 11: 13992-13999.

Li, Q., Y. Li, X. Li, Y. Chen, Q. Wu, and S. Wang. 2021. Efficient removal of methyl orange by nanocomposite aerogel of polyethyleneimine and β-cyclodextrin grafted cellulose nanocrystals. Journal of Applied Polymer Science, 138(48): 51481.

Li, Q., Y. Li, Y. Chen, Q. Wu, and S. Wang. 2021. An effective method for preparation of liquid phosphoric anhydride and its application in flame retardant epoxy resin. Materials, 14: 2205.

Lin, Y., Q. Zhang, Y. Deng, K. Shen, K. Xu, Y. Yu, S. Wang, and G. Fang. 2021. Fabricating nanodiamonds from biomass by direct laser writing under ambient conditions. ACS Sustainable Chem. Eng., 9(8): 3112-3123.

Lin, Y., Q. Zhang, Y. Deng, Q. Wu, X. Ye, S. Wang, and G. Fang. 2021. Fabricating graphene and nanodiamonds from nano-lignin by femtosecond laser irradiation. ACS Omega, 6(49), 33995-34002.

Meng, Y.*, C. I. Contescu, P. Liu, S. Wang, S. H. Lee, J. Guo, and T. M. Young. 2021. Understanding the local structure investigation of disordered carbons from cellulose and lignin. Wood Science and Technology, 55: 587-606.

Wang, Z., K. Kang, J. Wu, Q. Hu, D. P. Harper, G. Du, S. Wang, and K. Xu. 2021. Comparative effects of electrospinning ways for fabricating green, sustainable, flexible, porous, nanofibrous cellulose/chitosan carbon mats as anode materials for lithium-ion batteries. Journal of Materials Research and Technology, 11: 50-61.

Wu, Y., H. Zhang, Y. zhang, S. Wang, and Y. Meng. 2021. Understanding the effect of extractives on mechanical properties of the waterborne coating on wood surface by nanoindentation 3D mapping. Journal of Material Science, 56 (2), 1401-1412.

Xing, D., X. Wang, and S. Wang. 2021. Temperature-dependent creep behavior and quasi-static mechanical properties of heat-treated wood. Forests, 12: 968.

Xu, K., Y. Zhang, Q. Ye, J. Wu, Q. Li, G. Su, D. P. Harper, G. Du, X. Ye, and S. Wang. 2021. Natural cuticle-inspired chitin/silk fibroin/cellulose nanocrystal biocomposite films: fabrication and characterization. Materials Research Express, 8: 036402.

Zhang, Q.*, T. M. Young, D. P. Harper, T. Liles, and S. Wang. 2021. Optimization of electrospun poly(vinyl alcohol)/cellulose nanocrystals composite nanofibrous filter fabrication using response surface methodology. Carbohydrate Polymer Technologies and Applications, 2: 100120.

Zhang, S., S. Li, Q. Wu, Q. Li, J. Huang, W. Li, W. Zhang, and S. Wang. 2021. Phosphorus containing group and lignin toward intrinsically flame retardant cellulose nanofibril-based film with enhanced mechanical properties. Composites Part B., 212, 108699-.

Zhang, Y., Y. Yu, Y. Lu, W. Yu, and S. Wang. 2021. Effects of heat treatment on surface physicochemical properties and sorption behavior of bamboo (Phyllostachys edulis). Construction and Building Materials, 282, 122683.

Cao, Y., H. Hua, P. Yang, M. Chen, W. Chen, S. Wang, and X. Zhou. 2020. Experimental and theoretical investigation into the oxidation reaction pathway of cellulose induced by atmospheric low-temperature plasma. Carbohydrate Polymers, 233: 115632.

Cao, Y., M. Tang, P. Yang, M. Chen, S. Wang, H. Hua, and X. Zhou. 2020. Atmospheric low-temperature plasma-induced changes in the structure of the lignin macromolecule: An experimental and theoretical investigation. Journal of Agricultural and Food Chemistry, 68, 2, 451–460.

Chen, Y., D. Fan, Y. Han, S. Lyu, Y. Lu, G. Li, F. Jiang, and S. Wang. 2020. Effect of High residual lignin on the properties of cellulose nanofibrils/films. Cellulose, 25: 6421-6431.

Chen, Y.*, Q. Li, Y. Li, Q. zhang, J. Huang, Q. Wu, and S. Wang. 2020. Fabrication of cellulose nanocrystal-g-poly(acrylic acid-co-acrylamide) aerogels for efficient Pb(II) removal. Polymers, 12:333.

Chen, Y., Z. Yu, Y. Han, S. Yang, D. Fan, G. Li, and S. Wang. 2020. Combination of water-soluble chemical grafting and gradient freezing to fabricate elasticity-enhanced and anisotropic nanocellulose aerogels. Applied Nanoscience, 10: 411-419.

Han, S.*, S. Lyu, Z. Chen, S. Wang, and F. Fu. 2020. Combined stabilizers prepared from cellulose nanocrystals and styrene-maleic anhydride to microencapsulate phase change materials. Carbohydrate Polymers, 234: 115923.

Han, S.*, Y. Chen, S. Lyu, Z. Chen, S. Wang, and F. Fu. 2020. Effects of processing conditions on the properties of paraffin/melamine-urea-formaldehyde microcapsules prepared by in situ polymerization. Colloids and Surfaces A, 585, 124046.

Li, T., Q. Zhong, B. Zhao, S. Lenaghan, S. Wang, and T. Wu. 2020. Effect of surface charge density on the ice recrystallization inhibition activity of nanocelluloses. Carbohydrate Polymers, 234: 115863.

Liu， C., S. Wang, and Y. zhang. 2020. Effects of cellulose nanofibrils on the cure kinetics of the phenol formaldehyde resin. Materials Research Express, 7:065009.

Wang, X., H. chen, X. Feng, Q. Zhang, A. Kim, N. Labbé, J. Huang, A. Ragauskas, S. Wang, and Y. Zhang. 2020. Extraction and characterization of lignin-containing cellulose nanofibers from four organosolv-fractionated biomass materials. Wood Science and Technology, 54:503-517.

Xing, D.*, J. Li, and S. Wang. 2020. Comparison of the chemical and micromechanical properties of Larix spp. after eco-friendly heat treatments measured by in situ nanoindentation. Scientific Reports, 10, 4358.

Xu, K., G. Du, T. zhong, D. chen, X. Lin, Z. zheng, and S. Wang. 2020. Green renewable, facile nitrogen-doped hard carbon derived from nanocellulose/ chitosan biocomposites as a potential anode material for lithium-ion batteries. Journal of the Taiwan Institute of Chemical Engineers, 109: 79-89.

Xu, K., Z. shi, J. Lyu, T. Zhong, G. Du, and S. Wang. 2020. Effects of hydrothermal pretreatment on nano-mechanical behavior of switchgrass cell wall and on energy consumption of isolated lignin-coated cellulose nanofibrils. Industrial Crops and Products, 149: 112317.

Xu, S., C. Shen, X. Zhang, X. J. Chen, M. A. Radosevich, S. Wang, and J. Zhuang. 2020. Mobility of cellulose nanocrystals in porous media: effects of ionic strength, iron oxides, and soil colloids. Nanomaterials, 10(2), 348.

Zhang Q.*, Q. Li, L. Zhang, S. Wang, D. P. Harper, Q. Wu, and T. M. Young. 2020. Preparation of electrospun nanofibrous poly(vinylalcohol)/cellulose nanocrystals air filter for efficient particulate matter removal with repetitive usage capability via facile heat treatment. Chemical Engineering Journal, 399: 125768.

Zhang, L.*, S. Lyu, Q. Zhang*, S. C. Chmely, L. Wu, C. Melcher, K. Rajan, D. P. Harper, S. Wang, and Z. Chen. 2020. Recycling hot-water extractions of lignocellulosic biomass in bio-refinery for synthesis of carbon nanoparticles with amplified luminescence and its application in temperature sensing. Industrial Crops and Products, 145: 112066.

Zhang, Q., T. M. Young, D. P. Harper, T. Liles, and S. Wang*. 2020. Optimization of electrospun poly(vinyl alcohol)/cellulose nanocrystals composite nanofibrous filter fabrication using response surface methodology. Chemical Engineering Science, 399: 125768.

Zheng, M., S. Zhang, Y. Chen, Q. Wu, Q. Li, and S. Wang. 2020. Structure evolution of bio-based PLA/ENR thermoplastic vulcanizates during dynamic vulcanization processing. Polymer Testing, 82: 106324.

Zhou, X., Y. Chao, K. Uang, P. Yu, W. Chen, and S. Wang. 2020. Clean plasma modification for recycling waste plastic bags: From improving interfacial adhesion with wood towards fabricating formaldehyde-free plywood. Journal of Cleaner Production, 269: 122196.

Chen, C., K. Sun, A. Wang, H. Sun, X. Lu, W. Xu, S. Wang, and J. Jiang. 2019. Preparation of Photocatalyst with High Reactivity from Cellulose-based Graphitic Carbon. BioResources, 14(3): 7213-7228.

Chen, H., X. Wang, J. Bozell, X. Feng, Q. Li, A. Ragauskas, S. Wang, and C. Mei. 2019. Effect of solvent fractionationed pretreatment on energy consumption of cellulose nanofabrication of switchgrass. Journal of Material Science, 54(10): 8010-8022.

Chen, Y., D. Fan, S. Lyu, G. Li, F. Jiang, and S. Wang. 2019. Elasticity-enhanced and aligned structure nanocellulose foam-like aerogel assembled with cooperation of chemical art and gradient freezing. ACS Sustainable Chem. Eng., 7 (1): 1381–1388.

Chen, Y., S. Yang, D. Fan, G. Li, and S. Wang. 2019. Dual-Enhanced Hydrophobic and Mechanical Properties of Long-Range 3D Anisotropic Binary-Composite Nanocellulose Foams via Bidirectional Gradient Freezing. ACS Sustainable Chemistry & Engineering, 7:8706-8714.

Chen, Y., Y. Han, D. Fan, T. Yan, G. Li, and S. Wang. 2019. Carbon Aerogel Based on Biomass Cellulose. Scientia Silvae Sinicae, 55（10）：88-98.

Feng, X.*, Z. Wu, Y. Xie, and S. Wang. 2019. Reinforcing 3D print methacrylate resin/cellulose nanocrystal composites: Effect of cellulose nanocrystal modification. BioResources, 14(2): 3701-3716.

Han, S.*, S. Lyu, S. Wang, and F. Fu. 2019. High-Intensity Ultrasound assisted manufacturing of Melamine-Urea-Formaldehyde/Paraffin Nanocapsules. Colloids and Surfaces A, 568: 75-83.

Han, S.*, S. Lyu, Z. Chen, S. Wang, and F. Fu. 2019. Fabrication of melamine-urea-formaldehyde/paraffin microcapsules modified with cellulose nanocrystals via in situ polymerization. Journal of Material Science, 54:7383-7396.

Huang, J.*, S. Lyu, Z. Chen, S. Wang, and F. Fu. 2019. A facile method for fabricating robust cellulose nanocrystal/SiO2 superhydrophobic coatings. Journal of Colloid and Interface Science, 536:349-362.

Huang, Y, X. Ye, C. J. Doona, F. E. Feeherry, M. A. Radosevich, and S. Wang. 2019. An investigation of inactivation mechanisms of Bacillus amyloliquefaciens spores in non-thermal plasma of ambient air. Journal of the Science of Food and Agriculture, 99(1): 368-378 (Featured on cover).

Liu, C., Z. Cheng, S. Wang, Y. Zhang, and O. Hosseinaei. 2019. Effects of nanocrystalline cellulose on micro creep properties of phenol formaldehyde resin. Materials Research Express, 5(12): 125019.

Lyu, S., Y. Chen, L. Zhang, S. Han, Y. Lu, Y. Chen, N. Yang, Z. Chen, and S. Wang. 2019. Nanocellulose supported hierarchical structured polyaniline/nanocarbon nanocomposite electrode via layer-by-layer assembly for green flexible supercapacitors. RSC Adv., 9, 17824.

Wu, G., Q. Li, C. Jin, Z. Kong, and S. Wang. 2019. Characterization of the redispersibility of cellulose nanocrystals by particle size analysis using dynamic light scattering. Tappi Journal, 18(4): 223-231.

Wu, G., X. Feng, Z. Kong, and S. Wang. 2019. Effect of lignin contained cellulose nanofibrils on the cure kinetics of pMDI resin. Holzforschung, 73(9): 879-887.

Wu, Q.*, X. Li, Q. Li, S. Wang, and Y. Luo. 2019. Estimation of aspect ratio of cellulose nanocrystals by viscosity measurement: Influence of CNC aspect ratio distribution and ionic strength. Polymers, 11: 781.

Wu, Y., H. Zhang, Y. zhang, S. Wang, D. Wang, and X. Liu. 2019. Effect of thermal treatment on the mechanical properties of Larch (Larix gmelinii) and Red Oak (Quercus rubra) wood cell walls by nanoindentation. BioResources, 14(4): 8048-8057.

Wu, Y., J. Wu, S. Wang, X. Feng, H. Chen, and Q. Tang. 2019. Mechanical properties of water based coating layer on wood surface as evaluated by nanoindentation. Holzforschung, 73(9): 871-877.

Xu, K., Y. Zhang, Z. Wang, J. Zhang, C. Liu, Y. Zheng, X. Lin, Z. Zheng, and S. Wang. 2019. Excellent mechanical strengths and comprehensive stabilities of wood plastic composites improved by combining polyamide 6 and high temperature vapor treated wood flour. Journal of Applied Polymer Science, 136, 47984.

Zhang Q., Q. Li, T. M. Young, D. P. Harper, and S. Wang. 2019. A novel method to fabricate low air resistance electrospun polyvinyl alcohol/cellulose nanocrystals composite nanofibrous filter for high-efficiency particulate matter filtration. ACS Sustainable Chemistry & Engineering, 7:8706-8714.

Zhang, L.*, S. Lyu*, Q. Zhang*, Y. Wu, C. Melcher, S. C. Chmely, Z. Chen, and S. Wang. 2019. Dual-emitting film with cellulose nanocrystal-assisted carbon dots grafted SrAl2O4, Eu2+, Dy3+ phosphors for temperature sensing. Carbohydrate Polym., 206: 767-777.

Aucliair, N., A. Kaboorani, B. Riedl, V. Landry, O. Hosseinaei, and S. Wang. 2018. Influence of modified cellulose nanocrystals (CNC) on performance of bionanocomposite coatings. Progress in Organic Coatings, 123: 27–34.

Chen, C., K. sun, A. Wang, S. Wang, and J. Jiang. 2018. Catalytic graphitization of cellulose using nickel as catalyst. BioResources, 13(2):3165-3176.

Chen, Y., S. Lyu, S. Han, Z. chen, W. Wang, and S. Wang. 2018. Nanocellulose/polypyrrole aerogel electrodes with higher conductivity via adding vapor grown nano-carbon fibers as conducting networks for supercapacitor application. RSC Advances, 8: 39918-39928.

Feng, X., Z. Yang, S. .H. Rostom, M. Dadmun, S. Wang, Q. Wang, and Y. Xie. 2018. Reinforcing 3D printed acrylonitrile butadiene styrene by impregnation of methacrylate resin and cellulose nanocrystal mixture: Structural effects and homogeneous propertiesreinforcement and thermal stabilization. Materials and Design, 138: 62-70.

Fu, J., C. He, S. Wang, and Y. Chen. 2018. A thermally stable and hydrophobic composite aerogel made from cellulose nanofibril aerogel impregnated with silica particles. Journal of Materials Science, 53:7072-7082.

Fu, J., C. He, Y. Chen, and S. Wang. 2018. Preparation techniques of cellulose composite aerogels and their recent applications progress in bio-medical field. Journal of Cellulose Science and Technology, 26(1):69-77.

Guo, L., Z. Chen, S. Lyu, S. Wang, and F. Fu. 2018. Highly flexible cross-linked cellulose nanofibril aerogels with improved mechanical property and enhanced flame retardancy. Carbohydrate Polymers, 179: 333–340.

Huang, J.*, S. Wang, S. Lyu, and F. Fu. 2018. Preparation of a robust cellulose nanocrystal superhydrophobic coating for self-cleaning and oil-water separation only by spraying. Industrial Crops and Products, 122: 438–447.

LI, X., Q. Wu, M. Zheng, Q. Li, S. Wang, and C. Zhang. 2018. Mechanical, thermal properties and curing kinetics of liquid silicone rubber filled with cellulose nanocrystal. Cellulose, 25(1): 473-483.

Wang, X., L. Zhou, B. Xu, Y. Li, S. Wang, and Y. Deng. 2018. Effects of accelerated aging treatment on the microstructure and mechanics of wood-resin interphase. Holzforschung, 72(3): 235-241.

Wang, X., L. Zhou, Y. Deng, Y. Li, and S. Wang. 2018. Effect of the penetration of isocyanates (pMDI) on the nanomechanics of wood cell wall evaluated by AFM-IR and nanoindentation (NI). Holzforschung, 72(4): 301-309.

Wang, X., X. Chen, X. Xie, Y. Wu, L. Zhao, Y. Li, and S. Wang. 2018. Effects of thermal modification on the physical, chemical and micromechanical properties of Masson pine wood (Pinus massoniana Lamb.). Holzforschung, 72 (12): 1063-1070.

Wang, X., Y. Zhang, S. Wang, H. Jiang, S. Liu, Y. Yao, T. Zhang, and Q. Li. 2018. Synthesis and Characterization of amine-modified spherical nanocellulose aerogels. Journal of Materials Science, 53(18): 13304-13315.

Wu, Y., H. Jiang, Y. Zhang, and S. Wang. 2018. Effect of amine loading on the cellulose properties and its application for capturing CO2. Carbohydrate Polymer, 194: 252-259.

Xu, K., C. Liu, K. Kang, Z. Tang, W. Yang, and S. Wang. 2018. Chitosan/Nanocrystalline Cellulose Biocomposites Isolation and Preparation from Rice Straw: Physicochemical Characterization and Evaluation of Interfacial Compatibility. Composites Science and Technology, 154(18): 8-17.

Yang, R., J. Zhang, S. Wang, D. Zhou, Y. Zhang, H. Mao, and P. Lan. 2018. Effect of Hydrophobic Modification on Mechanical properties of Chinese Fir. BioResources, 13 (1), 2035-2048.

Yang, Z., G. wu, S. Wang, M. Xu, and X. Feng. 2018. Dynamic post-polymerization of 3D-printed photopolymer nanocomposites: Effect of cellulose nanocrystal and postcure temperature. Journal of Polymer Science. Part B: Polymer Physics, 56 (12), 935-946.

Zhang, L., S. Lyu, Z. Chen, and S. Wang. 2018. Fabrication of flexible and luminescent TEMPO-oxidized nanofibrillated cellulose films with modified SrAl2O4: Eu, Dy long afterglow phosphors. Nanomaterials, 8(5), 352.

Zhang, L., S. Lyu, Z. Chen, and S. Wang. 2018. Preparation and characterization of dual-functional coatings of nanofibrillated cellulose and modified SrAl2O4: Eu, Dy phosphors. Surface & Coatings Technology, 349: 318-327 (did not report in 2018).

Chen, Y., D. Fan, Y. Han, G. Li, S. Wang, and Y. Li. 2017. Length-controlled cellulose nanofibrils produced using enzyme pretreatment and grinding. Cellulose, 24:5431–5442.

Chen, Y., Y. He, D. Fan, Y. Han, G. Li, and S. Wang. 2017. An efficient method for cellulose nanofibrils length shearing via environmentally friendly mixed cellulase pretreatment. Journal of Nanomaterials, 12 pages.

Feng, X., Z. Yang, S. C. Chmely, Q. Wang, S. Wang, and Y. Xie. 2017. Lignin-coated cellulose nanocrystal filled methacrylate composites prepared via 3D stereolithography printing: Mechanical reinforcement and thermal stabilization. Carbohydrate Polymers, 169:272-281.

Feng, X., Z. Yang, S. Rostom, M. Dadmum, Y. Xie, and S. Wang. 2017. Structural, mechanical, and thermal properties of 3D printed L-CNC/acrylonitrile butadiene styrene nanocomposites. Journal of Applied Polymer Science, 134(31): 45082.

Fu, J., C. He, and S. Wang. 2017. Effect of immersion process on the properties and structure of cellulose nanofibril/silica composite aerogels. Spectroscopy and Special Analysis, 37(7): 2019-2023.

Fu, J., C. He, Y. Chen, and S. Wang. 2017. Mechanical property and microstructure of SiO2aerogel reinforced with cellulose nanofibrils. Acta Materie Compositae Sinica, In print.

Guo, J., W. Du, S. Wang*, Y. Yin, and Y. Cao. 2017. Cellulose Nanocrystals: A Candidate Layered Host for Fabricating Intercalated Nanocomposites. Carbohydrate Polymers, 157, 79-85.

Huang, J.*, S. Lyu, F. Fu, Y. wu, and S. Wang. 2017. Green preparation of cellulose nanocrystals/polyvinyl alcohol composite superhydrophobic coating. RSC Advances, 7: 20152-20159.

Huang, J.*, S. Wang, and S. Lyu. 2017. Facile preparation of a robust and durable superhydrophobic coating using lignin-coated cellulose nanocrystal particles. Materials, 10, 1080.

Kaboorani, A., N. Aucliair, B. Riedl, O. Hosseinaei, and S. Wang. 2017. Cellulose nanocrystal (CNC) based nanocomposites for UV curable high solid coating systems. Journal of Coatings Technology and Research, 14(5): 1137-1145.

Li, Y., C. Huang, L. Wang, S. Wang, and X. Wang. 2017. Investigating the effects of thermal treatment on the nanomechanical behavior of bamboo cell walls by nanoindentation. Holzforschung, 71(2): 129-136.

Lu, Y., G. Ye, X. She, S. Wang, D. Yang, and Y. Yin. 2017. A Sustainable Route of Molecularly Thin Cellulose Nanoribbons and Derived Nitrogen-Doped Carbon Electrocatalysts. ACS Sustainable Chemistry & Engineering, 5: 8729-8737.

Lyu, S., Y. Chen, S. Han, L. Guo, N. Yang, and S. Wang. 2017. Natural sliced wood veneer as a universal porous lightweight substrate for supercapacitor electrode. RSC Adv., 7, 54806.

Lyu, S., Y. Chen, S. Han, L. Guo, S. Wang, and Z. Chen. 2017. Influences of Crosslink Usage on Structure of Nanocellulose Cross-linked Aerogels. China Wood Industry, 31(6): 15-19.

Ma, L., Y. Zhang, and S. Wang*. 2017. Preparation and characterization of Acrylonitrile-Butadiene-Styrene (ABS) nanocomposites reinforced with cellulose nanocrystal via solution casting method (not report in 2017). Polymer Composites, 38(S1): E167-173.

Meng, Y., Q. wu, T. M. Young, B. Huang, S. Wang, and Y. Li. 2017. Analyzing three-dimensional structure and geometrical shape of individual cellulose nanocrystal. Polymer Composites, 38:2368–2377.

Wang, X., S. Wang, X. Xie, L. Zhao, Y. Deng, and Y. Li. 2017. Multi-scale evaluation of the effects of nanoclay on the mechanical properties of wood/phenol formaldehyde bondlines. International Journal of Adhesives and Adhesion, 74: 92-99.

Wang, X., Y. Li, S. Wang, W. Yu, and Y. Deng. 2017. Temperature-dependent mechanical properties of wood-adhesive bondline evaluated by nanoindentation. The Journal of Adhesion, 93(8): 640-656.

Wu, Q., W. Li, S. Fu, Q. Li, and S. Wang. 2017. Estimation of aspect ratio of cellulose nanocrystals by viscosity measurement: Influence of surface charge density and NaCl concentration. Cellulose, 24(8): 3255-3264.

Xiong, F., Y. Han, S. Wang*, G. Li, T. Qin, Y. Chen, and F. Chu. 2017. A facile self-assembly route for preparing lignin hollow nanospheres with size tunable single holes. ACS Sustainable Chemistry & Engineering, 5 (3): 2273–2281.

Xiong, F., Y. Han, S. Wang*, G. Li, T. Qin, Y. Chen, and F. Chu. 2017. Preparation and formation mechanism of size-controlled lignin nanospheres by self-assembly. Industrial Crops and Products, 100: 146-152.

Xu, D.*, D. Tao, Y. Li, X. Liu, C. Jia, Y. Zhang, and S. Wang. 2017. Transition of composition and micro mechanical properties of wood during pyrolysis. Journal of Forestry Engineering, 2(3): 22-27.

Xu, D.*, D. Tao, Y. Li, Y. Zhang, D. Zhou, and S. Wang. 2017. Transition characteristics of a carbonized wood cell wall investigated by scanning thermal microscopy (SThM). Wood Science and Technology, 51:831-843.

Zhang, Y, D. Xu, L. Ma, Q. Wang, S. Wang, and X. Liu. 2017. Influence of heat treatment on the water uptake behavior of wood. BioResources, 12(1): 1697-1705.

Fu, J, S. Wang, C. He, Z. Lu, J. Huang, and Z. Chen. 2016. Facilitated Fabriction of High Strength Silica Aerogels Using Nanocellulosic Scaffolds. Carbohydrate Polymer, 147: 89-96.

Fu, J., C. He, J. Huang, Z. Chen, and S. Wang. 2016. Cellulose nanofibrils reinforced silica aerogels: Optimization of preparation process evaluated by response surface methodology. RSC Advances, 6, 100326 - 100333.

Guo, J., X. Guo, S. Wang, and Y. Yin. 2016. Effects of ultrasonic treatment during acid hydrolysis on the yield, particle size and structure of cellulose nanocrystals. Carbohydrate Polymers, 135: 248-255.

Hu, L., F. Fu, S. Wang, S. Lv, and J. Huang. 2016. Preparation and properties of thermochromic energy-storage multifunctional wood material. Journal of Materials Science, 5: 2716-2726.

Hu, L., S. Lv, R. Fu, J. Huang, and S. Wang. 2016. Review of Application of Microencapsulation in Wood Functional Materials and Its Future Trends. Scientia Silvae Sinicae, 52(7): 148-157.

Hu, L., S. Lv, R. Fu, J. Huang, and S. Wang. 2016. A preliminary study on the shell-forming mechanism for melamine-formaldehyde microencapsulated. Thermosetting Resin, 31(3): 35-38.

Huang, J.*, S. Lv, F. Fu, H. Chang, and S. Wang. 2016. Preparation of Superhydrophobic Coating with Excellent Abrasion Resistance and Durability Using Renewable Nanofibrillated Cellulose. RSC Advances, 6, 106194 - 106200.

Huang, J.*, S. Lv, S. Wang, F. Fu, and L. Hu. 2016. Progress on surface wettability control technology of cellulose-based materials. China Wood Industry, 30(3): 29-37.

Li, X., X. Jiang, J. Wang, Q. Li, Q. Wu, and S. Wang. 2016. Stabilization and rheological behavior of Miscanthus floridulus cellulose nanofibril prepared by TEMPO-mediated oxidation. Journal of Zhejiang A & F University, 33(4): 667-672 (not report in 2016).

Lu, Q., Z. Cai, F. Lin, L. Tang, S. Wang, and B. Huang. 2016. Extraction of Cellulose Nanocrystals with a High Yield of 88% by Simultaneous Mechanochemical Activation and Phosphotungstic Acid Hydrolysis. ACS Sustainable Chemistry & Engineering, 4(4): 2165-2172.

Lu, Y., H. Liu, R. Gao, S. xiao, Z. Xiao, J. Li, Y. Yin, S. Wang, G. Zhu, and D. Yang. 2016. Coherent Interface Assembled Highly Porous Ag2O@Nanofibrillated Cellulose Aerogels for Iodine Capture. ACS Applied Materials & Interfaces, 8 (42): 29179–29185.

Lv, X, H. Chang, L. Hu, J. Huang, F. Fu, and S. Wang. 2016. Cellulose-coupled graphene/polypyrrole composite electrodes containing conducting networks built by carbon fibers as wearable supercapacitors with excellent foldability and tailorability. Journal of Power Sources, 327 (2016) 438-446.

Ma, L., Y. Zhang, and S. Wang*. 2016. Modified treatment for carbonized cellulose nanofiber application in composites. Composites Part A-Applied Science and Manufacturing, 90: 786-793.

Wang, X., Y. Deng, Y. Li, K. Kjoller, A. Roy, and S. Wang. 2016. In situ identification of the molecular-scale interactions of phenol-formaldehyde resin and wood cell walls using infrared nanospectroscopy. RCS Advance, 6: 76318-76324.

Wang, X., Y. Li, Y. Deng, W. Yu, X. Xie, and S. Wang. 2016. Contributions of the basic chemical components to the mechanical behaviour of wood fiber cell walls evaluated by nanoindentation. Bioresources, 11(3): 6026-6039.

Wang, Y., C. Liu, R. Zhao, J. McCord, T. G. Rials, and S. Wang. 2016. Anatomical Characteristics, Microfibril Angle and Micromechanical Properties of Cottonwood (Populus deltoides) and Its Hybrids. Biomass and Bioenergy, 93: 72-77.

Xing, D., J. Li, X. Wang*, and S. Wang. 2016. In situ measurement of heat-treated wood cell wall at elevated temperature by nanoindentation. Industrial Crops and Products, 87: 142-149.

Xiong F., Y. Han, G. Li, T. Qin, S. Wang, and F. Chu. 2016. Research status of click chemistry used for chemical modification of lignocellulose. Scientia Silvae Sinicae, 52(3): 90-96.

Xiong F., Y. Han, G. Li, T. Qin, S. Wang, and F. Chu. 2016. Synthesis and characterization of renewable woody nanoparticles fluorescently labeled by pyrene. Industrial Crops and Products, 83(7):663-669.

Du L., K. Arnholt, S. A. Ripp, G. S. Sayler, S. Wang, C. Liang, J. Wang, and J. Zhuang. 2015. Biological toxicity of cellulose nanocrystals (CNCs) against the luxCDABE-based bioluminescent bioreporter Escherichia coli 652T7. Ecotoxicology, 24, 2049–2053.

Fan, L., S. zhang, X. zhang, H. Zhou, Z. Lu, and S. Wang. 2015. Removal of arsenic from simulation wastewater using nano-iron/oyster shell composites. Journal of Environmental management, 156: 109-114.

Hu, L., S. Lv, F. Fu, Z. Cheng, J. Huang, and S. Wang. 2015. Effects of operating parameters on properties of microencapsulated ammonium polyphosphate. China Plastics Industry, 43(9): 95-98.

Li, X., G. Du, S. Wang, and Y. Meng. 2015. Influence of Gender on the Mechanical Properties of Fiber Cell Wall in Hemp Stalk. BioResources, 10(2): 2281-2288.

Li, Y, L. Ying, C. Huang*, Y. Meng*, F. Fu, S. Wang, and Q. Wu. 2015. Quasi-static and dynamic nanoindentation to determine influence of thermal treatment on mechanical properties of bamboo cell walls. Holzforschung, 69(7): 909-914.

Liu, C., Y. Zhang, and S. Wang. 2015. Micro creep properties of adhesive modified by nanocrystalline cellulose. Journal of Northeast Forestry University, 43(10): 118-121.

Lu, Q., W. Lin, L. Tang, S. Wang, X. Chen, and B. Huang. 2015. A mechanochemical approach to manufacturing bamboo cellulose nanocrystals. Journal of Materials Science, 50(2): 611-619.

Lu, Z., L. Fan, Z. Wu, H. zhang, Y. Liao, D. zhang, and S. Wang. 2015. Efficient Liquefaction of Woody Biomass in Polyhydric Alcohol with Acidic Ionic Liquid as a Green Catalyst. Biomass and Bioenergy, 81: 154-161.

Lu, Z., Z. Wu, L. Fan, H. zhang, Y. Liao, D. Zheng, and S. Wang. 2015. Rapid and solvent-saving liquefaction of woody biomass using microwave-ultrasonic assisted technology. Bioresource Technology, 199: 423-426.

Lv, S., F. Fu, S. Wang, J. Huang, and L. Hu. 2015. Novel wood-based all-solid-state flexible supercapacitors fabricated with natural porous wood slice and polypyrrole. RSC Advances, 2015, 5: 2813-2818.

Lv, S., F. Fu, S. Wang, J. Huang, and L. Hu. 2015. Eco-friendly wood-based solid-state flexible supercapacitors from wood transverse section slice and reduced graphene oxide. Electronic Materials Letters, 11(4):633-642.

Lv, S., F. Fu, S. Wang, J. Huang, and L. Hu. 2015. Advances in Nanocellulose-Based Electroconductive Composites. Scientia Silvae Sinicae, 10: 1-15.

Ma, L., Y. zhang, and S. Wang*. 2015. Fabrication and characterization of Acrylonitrile-Butadiene-Styrene (ABS) nanocomposites reinforced with cellulose nanocrystal via solution casting method. Polymer Composites.

Ma, L., Y. zhang, Y. Meng*, P. Anusonti-Inthra, and S. Wang. 2015. Preparing cellulose nanocrystal/acrylonitrile-butadiene-styrene nanocomposites using the master-batch method. Carbohydrate Polymers, 125:352-359.

Meng, Y.*, S. Wang, T. M. Young, P. Liu, C. Contescu, and B. Huang. 2015. Ultralight carbon aerogel from nanocellulose as highly selective oil absorption materials. Cellulose, 22:435-447.

Meng, Y., X. Wang, Z. Zu, S. Wang, and T. M. Young. 2015. Optimization of cellulose nanofibrils carbon aerogel fabrication using response surface methodology. European Polymer Journal, 73: 137-148.

Meng, Y.*, Y. Xia, T. M. Young, Z. Cai, and S. Wang. 2015. Viscoelasticity of wood cell walls with different moisture content as measured by nanoindentation. RSC Advances, 5: 47538-47547.

Niu, E., L. Zhang, Z. Cheng, F. Fu, and S. Wang. 2015. The nano-indentation technique in testing the mechanical properties of wood. Wood Processing Machinery, (2): 52-56.

Wang, X., Y. Li, S. Wang*, and Y. Deng. 2015. Investigating the nanomechanical behavior of thermosetting polymers using high-temperature nanoindentation. European Polymer Journal, 70: 360-370.

Xing, D.*, S. Wang, and J. Li. 2015. Effect of artificial weathering on the properties of industrial-scale heat treated wood. BioResources, 10(4): 8238-8252.

Xu, D., X. Fu, C. xu, S. Wang, J. Xun, and D. Zhou. 2015. Micro characteristics of biomass investigated by scanning thermal microscopy. Chemistry and Industry of Forest Products, 35(4): 1-7.

Xu, D., Y. Zhang, H. zhou, Y. Meng, and S. Wang. 2015. Characterization of adhesive penetration in wood bondlines by means of scanning thermal microscopy (SThM). Holzforschung, (in print).

Zhang, Y., C. Liu, S. Wang, Y. Wu, Y. Meng, J. Cui, Z. Zhou, and L. Ma. 2015. The influence of nano-cellulose and silicon dioxide on the mechanical properties of the cell wall in the bond interface of wood and urea-formaldehyde resin. Wood and Fiber Science, 47(3): 249-257.

Zhang, Y., R. Yang, Y. Wu, S. Wang, C. Liu, X. zhong, and J. Wu. 2015. Effect of growth period on cell–wall mechanical property of elephant grass. BioResournces, 10(3): 4252-4262.

Hu, Y., L. Tang, Q. Lu, S. Wang, X. chen, and B. Huang. 2014. Preparation of cellulose nanocrystals and carboxylated cellulose nanocrystals from borer powder of bamboo. Cellulose, 21: 1611-1618.

Li, X., G. Du, S. Wang, and G. Yu. 2014. Physical and Mechanical Characterization of Fiber Cell Wall in Castor (Ricinus communis L.) Stalk. BioResources, 9(1): 1596-1605.

Li, X., S. Wang, G. Du, Z. Wu, and Y. Cong. 2014. Manufacturing particleboard using hemp shiv and wood particles with low free formaldehyde emission urea-formaldehyde resin. Forest Products Journal, 64(5/6):187–191.

Liu, C.*, Y. Zhang, S. Wang, Y. Meng*, and O. Hosseinaei. 2014. Micromechanical properties of the interphase in cellulose nanofiber-reinforced PF bondlines. BioResources, 9(3): 5529-5541.

Lu, Q., L. Tang, F. Lin, S. Wang, X. Chen, and B. Huang. 2014. Preparation and characterization of cellulose nanocrystals via ultrasonication-assisted FeCl3-catalyzed hydrolysis. Cellulose, 21(5): 3497-3506.

Lua, Q., L., S. Wang, B. Huang, Y. Chen, and X. Chen. 2014. An investigation on the characteristics of cellulose nanocrystals from Pennisetum sinese. Biomass and Bioenergy, 70: 267-272.

Wang, X.*, Y. Deng, S. Wang, M. Chen, Y. Meng*, T. Pham, and Y. Yang. 2014. Evaluation of the effects of compression combined with heat treatment by nanoindentation (NI) of poplar cell walls. Holzforschung, 68(2): 167-176.

Wu, Q., Y. Meng*, S. Wang, Y. Li, S. Fu, L. Ma, and D. P. Harper. 2014. Rheological behavior of cellulose nanocrystal suspension: Influence of concentration and aspect ratio. Journal of Applied Polymer Science, 40525, 8.

Li, X., S. Wang, G. Du, Z. Wu, and Y. Meng*. 2013. Variation in physical and mechanical properties of hemp stalk fibers along height of stem. Industrial Crops and Products, 42:344-348.

Meng, Y., S. Wang, Z. Cai, T. M. Young, G. Du, and Y. Li. 2013. A novel sample preparation method to avoid influence of embedding medium during nanoindentation. Applied Physics A: Material Science & Processing, 110(2): 361-369.

Nair, S. S.*, D. C. Hurley, S. Wang, and T. M. Young. 2013. Nanoscale characterization of interphase properties in maleated polypropylene-treated natural-fiber reinforced polymer composites. Polymer Engineering and Science, 53(4): 888-896.

Shi, Z., F. Fu, S. Wang, S. He, and R. Yang. 2013. Modification of Chinese fir with alkyl Ketene Dimmer (AKD): Processing and characterization. BioResources, 2013, 8(1): 581-591.

Shi, Z., Z. Cai, S. Wang, Q. Zhong, and J. J. Bozell. 2013. Pretreatment in Enzymatic Hydrolysis of Biomass: Material Status and Their Responsibility to Ultrasonic. Holzforschung, 67(8): 891-897.

Tang, I., B. Huang, S. Wang, W. Ou, W. Lin, and X. Chen. 2013. Ultrasonication-assisted Manufacture of Cellulose Nanocrystals Esterified with Acetic Acid. Bioresource Technology, 2013, 127:100-105.

Wang, x., Y. Deng, S. Wang, C. Liao, Y. Meng*, and T. Pham. 2013. Nanoscale Characterization of Reed Stalk Fiber Cell Walls. BioResources. 8(2): 1986-1996..

Wu, Q., Y. Meng, K. Concha, S. Wang, Y. Li, L. Ma, and S. Fu. 2013. Influence of temperature and humidity on nano-mechanical properties of cellulose nanocrystal films made from switchgrass and cotton. Industrial Crops and Products 48: 28-35..

Wu, Y., S. Wang, D. Zhou, Y. Zhang, X. Wang, and R. Yang. 2013. Biodegradable poly(vinyl alcohol) nanocomposites made from rice straw fibrils: Mechanical and thermal properties. Journal of Composite Materials, 47(12): 1449-1459.

Candan, Z., T. Akbulut, S. Wang, X. Zhang, and A. F. Sisci. 2012. Layer thickness swell characteristics of medium density fiberboard (MDF) panels affected by some production parameters. Wood Research 2012: 57(3): 441-452., (did not report in 2012).

Hosseinaei, O, S. Wang, A. M. Taylor, and J-W. Kim. 2012. Effect of hemicellulose extraction on water absorption and mold susceptibility of wood-plastic composites. International Biodeterioration & Biodegradation 71:29-35.

Hosseinaei, O., S. Wang, A.A. Akbar, and T. G. Rials. 2012. Effects of hemicellulose extraction on properties of wood flour and wood¨Cplastic composites. Composites Part A-Applied Science and Manufacturing 43: 686-694.

Hu, G., C. Yao, L. Du, N. Pan, S. Wang, and Y. Li. 2012. Dynamic mechanical properties of bamboo. Zhejiang Forestry Science and Technology 4: 24-27.

Huang, Y., B. Fei, Y. Yu, S. Wang, Z. Shi, and R. Zhao. 2012. Modulus of elasticity and hardness of compression and opposite wood cell wall of Masson Pine. BioResources, 7(3): 3028-3037.

Kaboorani, A., B. Riedl, P. Blanchet, M. Feillin, O. Hosseinaei, and S. Wang. 2012. Nanocrystalline Cellulose (NCC): A renewable nano-material for polyvinyl acetate (PVA) adhesiveof wood-plastic composites. European Polymer Journal 48(11): 1829-1837.

Li, Y., Y. Shen, S. Wang, C. Du, Y. Wu, and G. Hu. 2012. A Dry-Wed Process to Manufacture Sliced Bamboo Veneer. Forest Products Journal 2012, 62(5): 395-399., (did not report in 2012).

Liao, C., Y. Deng, S. Wang, Y. Meng, X. Wang, and N. Wang. 2012. Microstructure and mechanical properties of silvergrass fibers cell evaluated by nanoindentation. Wood and Fiber Science 44(1): 63-70.

Shi, Z., F. Fu, S. Wang, S. He, and R. Yang. 2012. A study on hydrophobic property of chemical modified fir wood. China Wood Industry, 26(4): 16-20.

Yang, R., D. Zhou, S. Wang, Y. Zhang, and Y. Wu. 2012. Research status of surface hydrophobic performance of wood. China Wood Industry, 26(6): 26-29.

Zhang, Y., S. Wang, O. Hosseinaei, and Z. Zhou. 2012. Effect of compressive deformation on the wettability and water uptake behavior of poplar. Forest Products Journal2012, 62(6): 450-455., (did not report in 2012).

Zhang, Y., Y. Meng*, Y. Wu, S. Wang, G. Du, H. Jiang, and Z. Zhou. 2012. Effect of enzyme treatment on the mechanical properties of wood cell walls by nanoindentation. BioResources, 7(2): 2249-2259.

Hosseinaei, O.*, S. Wang, T. G. Rials, C. Xing*, A. M. Taylor, and S.S. Kelley. 2011. Effect of hemicellulose extraction on physical/mechanical properties and mold susceptibility of flakeboard. Forest Products Journal, 61(1):31-37.

Hosseinaei, O.*, S. Wang, T. G. Rials, C. Xing*, and Y. Zhang. 2011. Effects of decreasing carbohydrate content of wood strand on their properties. Cellulose, 18:841-850.

Li, X., D. Zhou, and S. Wang. 2011. Improving the thickness-swelling (TS) of Castor-stalk based panel. Advanced Materials Research 183-185: 2095-2099.

Li, X., D. Zhou, S. Wang, and D. Xu. 2011. The micro-structure of the castor stalk based panel. Advanced Materials Research, 183-185: 2100-2104.

Li, X., D. Zhou, S. Wang, and H. Mao. 2011. The pyrogenation-characters of different layers of the castor stalk. Advanced Materials Research, 183-185: 2105-2109.

Li, X., D. Zhou, S. Wang, and Y. Shao. 2011. The caster stalk based particle board with different resin. Advanced Materials Research, 183-185: 1066-1070.

Liang, K.*, G. Du, O. Hosseinaei*, S. Wang, and H. Wang. 2011. Mechanical properties of secondary wall and compound corner middle lamella near the phenol-formaldehyde (PF) adhesive bond line measured by nanoindentation. Advanced Materials Research 236-238: 1746-1751.

Liu, Y., Q. Zhong, S. Wang, and Z. Cai. 2011. Correlating physical changes and enhanced enzymatic saccharification of pine flour pretreated by N-methylmorpholine-N-oxide. Biomacromolecules, 12(7):2626-2632.

Wu, Y., D. Zhou, S. Wang, Y. Zhang, Y. Shen, and Z. Wu.. 2011. Mechanical and Thermal Properties of Poly(Vinyl Alcohol) Nanocomposite Material Reinforced with Rice Straw Fibril and Fibril Aggregates. Advanced Materials Research 183-185: 1883-1887.

Zhang, Y., O. Hosseinaei*, S. Wang, and Z. Zhou. 2011. Influence of the hemicellulose extraction on the water uptake behavior of wood strand. Wood and Fiber Science, 43(3): 244-250.

Zhou, Z., Z. Xu, Y. Zhang, and S. Wang. 2011. Dimension parameters and nanoindentation of Populus adenopoda wood cell. Scientia Silvae Sinicae 46(11): 138-143(did not report in 2010).

Cheng, Q.*, Neimsuwan, T.*, S. Wang, and J. Wang. 2010. Tensile and Impact Properties of Steam-Exploded Wood Polypropylene Composites. Wood and Fiber Science 42(2): 158-164.

Cheng, Q.*, S. Wang, and Q. Han. 2010. A Novel Process to Isolate Fibrils from Cellulose Fibers by High-Intensity Ultrasonication. Part 2: Fibril characterization. Journal of Applied Polymer Science, 115: 2756-2762.

Du, G.*, S. Wang, and H, Lei. 2010. Over-pressing of thin medium density fiberboard. Journal of Beijing Forestry University 32(1): 114-117.

Enayati, A. A., O. Hosseinaei, S. Wang, S. A. Mirshokraie, and M. Tajvidi. 2010. Thermal properties of wood-plastic composites from hemicellulose extracted wood flour. Iranian Journal of Polymer Science and Technology. 2009, 22(3): 171-181. (did not report in 2009).

Nair, S. S.*, S. Wang, and D. Hurley. 2010. Nanoscale characterization of natural fiber and its composite using contact resonance force microscopy. Composites Part A 41: 624-631.

Qu, P., H. Tang, Y. Gao, Y. Zhang, and S. Wang. 2010. Polyethersulfone composite membrane blended with cellulose fibrils. BioResources, 5(4): 2323-2336.

Wang, S., Nair, S.S*, and D. Hurley. 2010. Characterizing Interphase Properties in Fiber Reinforced Polymer Composite with Advanced AFM Based Tools. Advanced Materials Research 123-125: 403-406.

Wu, Y.*, D. Zhou, S. Wang, C. Xing*, and Y. Zhang. 2010. Nano-mechanical properties of the cell wall of crop straws. Scientia Silvae Sinicae 46(9): 140-143.

Wu, Y.*, S. Wang, D. Zhou, C. Xing*, Y. Zhang, and G.M. Pharr. 2010. Evaluation of nanomechanical properties of agricultural crops by nanoindentation. Bioresource Technology 101(8):2867-2871.

X. Zhang*, S. Wang, Q. Zhao, and E. Lara-Curzio. 2010. Characterizing Strength and Fracture of Wood Cell Wall Through Uniaxial Micro-compression Test. Composites Part A 41: 632-638.

Xu, Z, D. Zhou, Y. Zhang, and S. Wang. 2010. Measurement of characteristic parameters of poplar wood cell by atomic force microscope. Modern Instruments 2009, (5): 51-53 (did not report in 2009).

Cheng, Q*, S. Wang, and T. G. Rials. 2009. Poly vinyl alcohol nanocomposites reinforced with cellulose fibrils isolated by high intensity ultrasonication. Composites Part A 40: 218-224.

Cheng, Q.*, S. Wang, and D. Harper. 2009. Effects of process and source on elastic modulus of single cellulose fibrils evaluated by atomic force microscopy. Composites Part A. Applied Science and Manufacturing 40: 583-588.

Cheng, Q.*, S. Wang, T. G. Rials, K. M. Kit, and M. Hansen. 2009. Fabrication optimization of polypropylene composites reinforced with steam-exploded wood fiber by wet process. Eur. J. Wood Prod. 67: 449-455.

Lee, S.*, S. Wang, T. Endo, and N. H. Kim. 2009. Visualization of interfacial zone in regenerated cellulose fiber-reinforced polypropylene composite by phase and thermal conductivity contrast imaging using AFM. Holzforschung 63: 240-247 (DOI: 10.1515/HF.2009.033).

Wang, S., and Q. Cheng*. 2009. A Novel Process to Isolate Fibrils from Cellulose Fibers by High-Intensity Ultrasonication. Part I. Process optimization. Journal of Applied Polymer Science, 113(2): 1270-1275.

Wu, Y.*, D. Zhou, S. Wang, and Y. Zhang. 2009. Polypropylene composites reinforced with rice straw micro/nano fibrils isolated by high intensity ultrasonication. BioResources, 4(4): 1487-1497.

Wu, Y., D. Zhou, S. Wang, and Y. Zhang. 2009. Research on polypropylene/rice straw fibrils nanocomposites. China Forest Products Industry 36(2):21-33.

Wu, Y., D. Zhou, S. Wang, and Y. Zhang. 2009. Relationship between wood microfibril angle, density and modulus. Journal of Nanjing Forestry University 33(4):113-116.

Wu, Y.*, S. Wang, D. Zhou, C. Xing, and Y. Zhang. 2009. Use of nanoindentation and SilviScan to determine mechanical properties of ten hardwood species. Wood and Fiber Science 41(1): 64-73.

Xing, C., S. Wang, and G.M. Pharr. 2009. Comparison of the effects of thermomechanical refining pressure on the properties of refined fibers of juvenile and mature wood. Wood Science and Technology 43(7-8): 615-625 (DOI 10.1007/s00226-009-0266-1).

Zhang, L., G. Chen, H. Tang, Q. Cheng*, and S. Wang. 2009. Preparation and characterization of composite membrane of polysulfone and microcrystalline cellulose. Journal of Applied Polymer Science 112:550-556.

Cheng, Q*, and S. Wang. 2008. A method for testing the elastic modulus of single cellulosic fibrils via atomic force microscopy. Cheng, Q. and S. Wang. Composites Part A_Applied Science and Manufacturing 39: 1838-1843.

Garcia, P.J.,, S. Wang, and W. W. Moschler. 2008. Moisture effects on in-situ density monitoring during OSB hot-pressing. Forest Products Journal 58(10): 47-51.

Lee, S. Y.*, S. Wang, and Y. Teramoto. 2008. Isothermal crystallization behaviour of hybrid biocomposite consisting of regenerated cellulose fiber, clay, and poly (lactic acid). Journal of Applied Polymer Science 108: 870-875.

Neimsuwan, T.*, S. Wang, A. M. Taylor, and T. G. Rials. 2008. Statics and kinetics of water vapor sorption of small loblolly pine samples. Wood Science and Technology. 42(6):493-506.

Neimsuwan, T.*, S. Wang, and B. Via. 2008. Effects of processing parameters, resin, and wax loading on water vapor sorption. Wood and Fiber Science, 40(4): 495-504.

Neimsuwan, T.*, S. Wang, and X. P. Ye. 2008. Effects of refining steam pressure on the water vapor sorption of loblolly pine fibers. Holzforschung 62(5): 556-561.

Tackie, A.D., S. Wang, and R.M. Bennett.. 2008. Investigation of OSB properties based on a 3D density distribution. Part 2. Resin variation effects on OSB thickness swell and internal stress. Wood and Fiber Science 40(3): 352-361.

Tackie, A.D.,, S. Wang, R.M. Bennett, and S.Q. Shi.. 2008. Investigation of OSB properties based on a 3D density distribution. Part 1. The finite element model. Wood and Fiber Science 40(1): 91-102.

Taylor, A. M., S. Wang, C. Freitag, and J.J. Morrell.. 2008. Properties of Enhanced OSB subfloor panels. Forest Products Journal 58(5): 77-79.

Xing, C.*, S. Wang, G.M. Pharr, and L. Groom.. 2008. Effect of thermo-mechanical refining pressure on the properties of wood fiber as measured by nanoindentation and atomic force microscopy. Holzforschung 62(2): 230-236.

Zhang, L., G. Chen, H. Tang, and S. Wang. 2008. Preparation of characterization of PSF-cellulose composite ultra-filtration membrane. Biomass Chemical Engineering 42(1): 11-16.

Zhou, Z., Y. Zhang, and S. Wang. 2008. Nanoindentation testing technique of wood and wood-based composite materials based on AFM. China Forest Products Industry 35(2): 23-26.

Cheng, Q., and S. Wang. 2007. Recent Research on Nanocomposites Reinforced By Natural Micro/Nanofibrils. China Forest Products Industry 34(3): 3-7 (in Chinese, English abstract).

Cheng, Q., S. Wang, D. Zhou, T. G. Rials, and Y. Zhang. 2007. Lyocell-Derived Cellulose Microfibril/Nanofibril and Its Biodegradable Nanocompsites. Journal of Nanjing Forestry University (4): 21-26.

Cheng, Q., S. Wang, T. G. Rials, and S.H. Lee. 2007. Physical and Mechanical Properties of Polyvinyl Alcohol and Polypropylene Composite Materials Reinforced With Fibrils Isolated From Regenerated Cellulose Fibers. Cellulose, 14(6): 593-602.

Hartley I.D., S. Wang, and Y. Zhang. 2007. Water Vapor Sorption Isotherm Modeling Of Commercial Oriented Strand Panel Based On Species and Resin Type. Building and Environment 42(10): 3655-3659 (Available online 5 December 2006).

Lee, S., S. Wang, G. Pharr, and H. Xu. 2007. Evaluation of Interphase Property in a Cellulose Fiber-Reinforced Polypropylene Composite by Nanoindentation and Finite Element Analysis. Composites Part A_Applied Science and Manufacturing 38(6): 1517-1524.

Lee, S., S. Wang, G. Pharr, M. Kant, and D. Penumadu. 2007. Mechanical Properties and Creep Behaviour of Lyocell Fibers by Nanoindentation and Nano-Tensile Testing. Holzforschung 61(3): 254-260.

Lee, S., Y. Teramoto, S. Wang, G. Pharr, and T. G. Rials. 2007. Nanoindentation Of Biodegradable Cellulose Diacetate-Grafted-Poly (L-Lactide)S Copolymers-Effect Of Molecular Composition And Thermal Ageing On Mechanical Property. Journal of Polymer Science B, 45: 1114-1121.

Tze, W. T. Y., S. Wang, T. G. Rials, G.M. Pharr, and S.S. Kelley. 2007. Nanoindentation of Wood Cell Wall: Continuous Stiffness and Hardness Measurements. Composites Part A: Applied Science and Manufacturing, 38(3): 945-953.

Wang, S., Y. Zhang, and C. Xing. 2007. Effects of Strand Drying Methods on Wood Surface Wettability. Holz als Roh-und Werkstoff 65(6): 437-442 (Online since July 19, 2007).

Wu, Y., D. Zhou, S. Wang, and Y. Zhang. 2007. The Application of Nanoindentation Technique in Wood Science. The International Forest Research 20(3): 51-55 (in Chinese with English Abstract).

Xing, C., T. Zhang, J. Deng, and S. Wang. 2007. Urea-Formaldehyde (UF) Resin Gel Time As Affected By Ph Value, Solid Content and Catalyst. Journal of Applied Polymer Science 103(3): 1566-1569.

Xing, C., T. Zhang, J. Deng, and S. Wang. 2007. Investigation Of The Effects Of Bark Fiber As Core Material And Its Resin Content On Three-Layer MDF Performance By Response Surface Methodology. Wood Science and Technology 41(7): 585-595(On-line first, March 11, 2007).

Yin, S., S. Wang, T. G. Rials, K. Kit, and M. Hansen. 2007. Polypropylene Composites Filled With Steam-Exploded Wood Flour from Insect-Killed Loblolly Pine by Compression-Molding. Wood and Fiber Science, 39(1): 95-108.

Zhang, Y., J. Jin, and S. Wang. 2007. Effects of Resin and Wax on Water Uptake Behavior of Wood Strands. Wood and Fiber Science 39(2): 271-278.

Zhang, Y., and S. Wang. 2006. Study on surface energy characteristics of poplar and yellow pine strands. Chinese Forestry Science and Technology 5(2):7-10 (not reported in 2006).

Book chapters or books

Xu, K., G. Du, and S. Wang. 2021. Wood Plastic Composites: Their Properties and Applications. Engineered Wood Products for Construction, IntechOpen, p. 1-24.

Cheng, Q.*, S. Wang, and Z. Tong. 2014. Poly (Vinyl Alcohol) Cellulose Nanocomposites. Chapter of the book Handbook of Polymer Nanocomposites. Handbook of Polymer Nanocomposites. Processing, Performance and Application, p. 433-447.

Wu, Y.*, D. Zhou, S. Wang, Y. Zhang*, and Z. Wu. 2012. Polypropylene Nanocomposite Reinforced with Rice Straw Fibril and Fibril Aggregates. Chapter 17 of the book ¡°Polypropylene¡±, ISBN 978-953-51-0636-4 edited by Fatih Dogan. InTech, Rijeka, Croatia, P329-344.

Cheng, Q.*, D. DeVallance, J. Wang, and S. Wang. 2011. Advanced Cellulosic Nanocomposite Materials. Chapter 21 of the book 'Advances in Composite Materials for Medicine and Nanotechnology', ISBN 978-953-307-35-7, Editor: Brahim Attaf. InTech, Rijeka, Croatia, p. 547-564.

Wang, S., S. H. Lee*, and Q. Cheng*. 2010. Chapter 19- Mechanical properties of cellulosic materials at micro- and nanoscale levels. Cellulose: Structure and Properties, Derivatives and Industrial Uses. Nova Publishers, USA (ISBN: 978-1-60876-388-7). P. 459-500.

Wang, S. 2009. Evaluation of transgenic wood for wood productivity and quality. Chapter 12 in Biosystem Engineering. McGraw Hill Publishers, USA (ISBN: 978-0-07-160628-8). P. 347-366.

Bulletins, reports, circulars, pamphlets, factsheets

Taylor, A. M., and S. Wang. 2007. Properties of enhanced OSB subfloor panels. UT Extension W176, 2pp.

Popular press, trade, UTIA magazine or newsletter articles

Meng, Y.*, Q. Wu, T. M. Young, B. Huang, and S. Wang. 2016. Investigating geometrical shape of cellulose nanocrystal. SPE Plastics Research, Online.

Abstracts from scientific or discipline meetings, papers from conference proceedings

Wang, S., and Zhou, Z*. 2025. UPDATE THIS: Innovative Lignin Nanoparticle Manufacturing and Applications in Sustainable Packaging Solutions. The IEEE Latin American Conference on Nanotechnology, Cusco, Peru, Nov. 2-7, 2025.

Wang, S., Z. Zhou*, and Y. Lin. 2025. Nanolignin: Processing and Potential Applications. The 8th International Conference on Multifunctional, Hybrid and Nanomaterials, Montpellier France, March 3-6, 2025.

Zhou, Z*, S. Saedi*, and S. Wang. 2025. Developing Lignin-based Coating, Film and Binder To Manufacture PFAS-free Oil-Resistant Food Packaging Materials. 2025 MRS Fall Meeting and Exhibit, Boston, Dec. 1-5, 2025.

Rajan, K., S. Wang, and N. Labbé. 2023. Developing amphiphobic lignin coatings for molded fiber and paper products. 2023 ACS Spring Meeting, Indianapolis, IN, Mar 26-30, 2023.

Rajan, K., S. Wang, and N. Labbé. 2023. Exploring lignin-based alternatives for PFAS-free pulp and paper packaging. 2023 ACS Spring Meeting, Indianapolis, IN, Mar 26-30, 2023.

Wang, S. 2023. Wood science, nanotechnology and environment. International Symposium on Forestry Biomass Materials 2023, June 24-25, 2023. Hangzhou, China (online).

Wang, S.*, Z. Zhou, T. M. Young, N. Labbé, and K. Rajan. 2023. Addressing high cost issues during the production of nanolignin and potential applications. Processing Technologies for the Forest & Biobased Products Industries PTF BPI 2023, Oct. 30 -Nov. 1, St. Simons Island, GA, USA.

Wang, S. 2022. How to convert cellulose and hemicellulose of biomass into nanomaterials. Frontiers in Biorefining, Oct. 24-27, St. Simons Island, GA, USA.

Zhou, Z.*, S. Wang, T. M. Young, N. Labbé, and K. Rajan. 2022. Development of energy-efficient and water saving mechanical grinding method for the production of nanolignin. Frontiers in Biorefining, Oct. 24-27, St. Simons Island, GA, USA.

Lin, Y., L. Zhang, and S. Wang. 2021. New concept to convert whole biomass into nanomaterials. 2021 International Symposium of Institute of Forest Science, Oct. 22, Kangwon National University, South Korea. P. 14. (invited)

Wang, S. 2021. Optimizing wood composite processing and properties via press control strategies. Processing Technologies for the Forest & Biobased Products Industries PTF BPI 2021, Nov. 1-3, St. Simons Island, GA, USA. (invited)

Han, S.*, S. Lyu, F. Fu, and S. Wang. 2019. Manufacture and characterization of paraffin/melamine-urea-formaldehyde capsules by in situ polymerization. Proc. The 12th edition of the International Conference “Wood Science and Engineering in the Thi, 07 – 08 November 2019, Brasov, Romania. p. 21-31.

Q. Zhang, Q. Li, T. M. Young, D. P. Harper, and S. Wang. 2019. Fabrication of electrospun nanofibrous filter for particulate matter filtration using cellulose nanocrystals. Society of Wood Science and Technology Annual Meeting, Oct. 20-25. Tenaya Lodge, Yosemite National Park. (poster presentation).

Wang, S., J. Huang, S. Lyu, and F. Fu. 2018. Creating superhydrophobic surfaces using natural cellulose. International Conference and Expo on Nanotechnology, April 19-21, 2018, Dubai, UAE.

Wang, S., X. Feng, and Y. Xie. 2018. Properties of Cellulose Nanocrystal Reinforced Polymer Composites Based on 3D Printing. IAWS 2018 Annual Meeting, Biosustainable materials: Key to a better future, October 15 – 19, 2018, Guadalajara, Jalisco, Mexico.

Wang, S., Y. Wang, X. Wang, H. Chen, N. Labbe, T. G. Rials, and A. Ragauskas. 2018. Evaluation of Energy Crop Hybrid Poplar for Non-energy Application. The International Conference on Renewable Energy 2018, April 25-27, 2018, Barcelona, Spain.

Wang, X., H. Chen, X. Feng, Q. Zhang, N. Labbe, J. Huang, S. Wang, and Y. Zhang. 2018. Extraction and characterization of lignin-containing cellulose nanofibers from hybrid poplar. 4th International Congress on Planted Forests, October 23 -27 2018. China National Convention Centre, Beijing, China.

Guo, L., Z. Chen, S. Lyu, S. Wang, and F. Fu. 2017. Fire Retardant Cellulose Aerogels Prepared by Utilizing Mg(OH)2Nanoparticles Decorated Nanofibrillated Cellulose. The 1st International Symposium on Nanocellulosic Materials, May 29-22, 2017, Hangzhou, China.

Han, S., S. Lyu, S. Wang, and F. Fu. 2017. Effect of Nanocellulose on the Morphology of Melamine-Urea-Formaldehyde Resin Microcapsules. The 1st International Symposium on Nanocellulosic Materials, May 29-22, 2017, Hangzhou, China.

Huang, J., S. Lyu, F. Fu, and S. Wang. 2017. Green preparation of PVA/ Nanocrystalline cellulose composite superhydrophobic coating with excellent abrasion resistance. IUFRO 2017 Division 5 Conference, Vancouver, BC, Canada. June 12-16, 2017.

Liu, Q., F. Lin, Z. Cai, S. Wang, and B. Huang. 2017. One-Pot Preparation of Nanocellulose with a High Yield of 98% via Simutaneously Mechanical Shearing and Assisted Ultrasonication. The 1st International Symposium on Nanocellulosic Materials, May 29-22, 2017, Hangzhou, China.

Lyu, S., S. Han, F. Fu, H. Chang, L. Guo, S. Wang, and Z. Chen. 2017. Self-assembled Carbon Nanotube/Polyaniline Aerogel Electrodes Based on Nanocellulose for Electrochemical Energy Storage. The 1st International Symposium on Nanocellulosic Materials, May 29-22, 2017, Hangzhou, China.

Wang, S. 2017. Recent progress on cellulose nano material development at University of Tennessee. 2017 International Forum of Biobased Energy and Biomaterials, Nov. 8-10, 2017. Lin’an, Hangzhou, China.

Wu, Q., X. Li, S. Fu, Q. Li, and S. Wang. 2017. Influence of surface charge density and NaCl concentration on the intrinsic viscosity of cellulose nanocrystal suspensions. Annual Meeting on biopolymers and Polymer Chemistry, Osaka, Japan. Oct. 12-13, 2017.

Ye, G., Y. Lu, X. Kong, S. Wang, and D. Yang. 2017. Nitrogen-doped Hierarchically Porous Carbon Nanofiber Aerogels Derived from Nanofibrillated Cellulose for Boosting Lithium Ion Storage. The 1st International Symposium on Nanocellulosic Materials, May 29-22, 2017, Hangzhou, China.

Zhuang, J., X. J. Chen, S. Xu, M. A. Radosevich, and S. Wang. 2017. Retention and transport of cellulosic nanocrystals in soils. Proceedings of ASA-CSSA-SSSA Annual Meeting, Tampa, Florida, USA, October 22-25, 2017.

Feng, X*, S. Wang, and Y. Xie. 2016. 3D Stereolithography Printed Lignin-coated Cellulose Nanocrystal/Photopolymer Nanocomposites: Mechanical and Thermal Properties. 4th International Conference Process Technologies for the Forest & Biobased Products Industries PTF, BPI 2016. October 25-26, St. Simons, Georgia.

Fu, J.*, C. He, J. Huang, Z. Chen, and S. Wang. 2016. Fabrication of silica aerogels within nanocellulosic scaffolds with improved mechanical properties and optimized processes. 2016 International Conference on Nanotechnology for Renewable Materials. June 13-16, Grenoble, Franc.

Huang, J.*, S. Lv, S. Wang, F. Fu, and H. Chang. 2016. Preparation of cellulose nnao fibril superhydrophobic coating with excellent durability. IUFRO Regional Congress for Asia and Oceania 2016 (IUFRO-AO 2016), Oct. 24-27. Beijing, China. P. 382 (Poster).

Wang, S.*, X. wang, Y. Deng, and Y. Li. 2016. Nanoscale chemical-mechanical characterization of wood-adhesives bondline. 50 Years International Academy of Wood Science 1966-2016. June 1-3, Paris. P. 18..

Fu, J.*, L. Fan, C. He, Z. Lu, and S. Wang. 2015. Cellulose nanocrystals reinforced silica aerogels: microstructure and mechanical properties. 2015 TAPPI International Conference for Renewable Materials. June 22-25, 2015. Atlanta, GA..

Meng, Y.*, Q. wu, T. M. Young, T. G. Rials, and S. Wang. 2015. Development of Value-Added Nanomaterials from Switchgrass (Panicum virgatum L.). Praitie & Native Grass International Conference, Sept. 30-Oct. 2, Knoxville, TN.

Wang, S.*, G. Du, X. wang, and D. xing. 2015. Mechanical and physical properties of wood and bamboo in cell wall level: our recent progress. Proceeding of the 19th International Nondestructive Testing and Evaluation of Wood Symposium, Rio de, 164-170.

Wang, S.*, X. wang, Y. Meng, D. xing, and Y. Meng. 2015. Nanomechanical Measurements and Cellulose Nano Material Development at University of Tennessee. International Symposium for the 40th Anniversary of the Institute of Forest Science. Oct. 13, 2015..

Xu, D.*, S. Wang, C. Jia, X. Liu, and J. Sun. 2014. Application SThM in characterization research of biomass materials. The 12th Pacific Rim Bio-Based Composites Symposium, 134.

Meng, Y.*, T. M. Young, Q. Wu, S. Wang, and B. Huang. 2013. Morphology and size distributions of cellulose nanocrystals prepared from Switchgrass. 67th FPS International Convention and 56th SWST International Convention, June 9-11, 2013 in Austin, Texas, USA (First Place Award of Poster Competition).

Meng, Y.*, T. M. Young, Q. Wu, S. Wang, and K. Concha. 2013. Effect of morphology, moisture content and temperature on the mechanical properties of neat cellulose nanocrystal films. 67th FPS International Convention and 56th SWST International Convention, June 9-11, 2013 in Austin, Texas, USA.

Wu, Q., Y. Meng, K. Concha, S. Wang, Y. Li, L. Ma, and S. Fu. 2013. Effect of temperature and humidity on mechanical properties of cellulose nano-crystals films. 2013 TAPPI International Conference on Nanotechnology for Renewable Materials, June 24-27, 2013. Stockholm, Sweden.

Huang, Y., B. Fei, Y. Yu, S. Wang, and Z. Shi. 2012. Modulus of Elasticity and Hardness of Compression and Opposite Wood Cell Wall of Masson Pine. Proceedings of the 55th International Convention of Society of Wood Science and Technology, August 27-31, 2012 - Beijing, CHINA. P. 1-9.

Meng, Y.*, S. Wang, T. Young, and D. C. Hurley. 2012. Understanding the biomaterial's microstructure and mechanical properties in small scale using nanoindentation and advanced atomic force microscope based technology. The 2nd Biennial International Conference on Processing Technologies for the Biobased Products Indus, Nov. 6-7, St. Simons Island, GA P. 40 (invited). (invited)

Du, G, S. Wang, K. Liang, Y. Meng*, X. Li, O. Hosseinaei*, and S.S. Nair*. 2011. Evaluation of lignocellulosic materials and potential Influence by processes using nanoindentation and other advanced tools. ICMAT 2011 International Conference on Materials for Advanced Technologies, June 26- July 1, Singapore. P. 20.

Hosseinaei, O.*, S. Wang, and C. Xing*. 2011. Physical and mechanical properties of flakeboard made from high density wood after hemicelluloses extraction. Proceeding of 2011 International Symposium on Comprehensive Utilization of Wood Based Resources, Zhejiang, China, Nov. 23-25, 2011. Pp. 632-640. (invited)

Li, S., H. Bai, P. Qu, S. Wang, and L. Zhang. 2011. The hydrophilic property of polysulfone membrane blended with cellulose nanofibers. 2011 TAPPI International Conference on Nanotechnology for Renewable Materials. June 6-8, Washington DC. P. 32.

Li, S., P. Qu, L. Zhang, and S. Wang. 2011. The hydrophilic property of polysulfone membrane blended with cellulose nanofibers. American Filtration Society 2011 Annual Conference. May 9-12, Louisville, Kentuky. P. 39.

Meng, Y*, S. Wang, Z. Cai, G. Du, and T. M. Young. 2011. Effect of load function on the nanoindentation measurement of wood cell wall. The Proceeding of 2011 International Symposium on Comprehensive Utilization of Wood Based Resources. Zhejiang, China, Nov. 23-25, 2011. Pp. 967-978. (invited)

Nair, S. S.*, S. Wang, D. Hurley, and D. P. Harper. 2011. Effects of Interphase properties on the mechanical behavior of natural fiber reinforced polypropylene composites. 11th International Conference on Wood & Biofiber Plastic Composites, May 16-18, Madison, Wisconsin. P. 21.

Li, Y., C. Du, Z. Liu, and S. Wang. 2010. Manufacturing Technology and Application of Sliced Bamboo Veneer. The Forest Products Society 64th International Convention, June 20-22, Madison, WI. P. 111-112.

Liu, Y., S. Wang, Cai, Z., and Q. Zhong. 2010. Mechanistic understanding of enhanced enzymatic sccharification of pine flour pretreated by NMMO. The Forest Products Society 64th International Convention, June 20-22, Madison, WI (session 28, paper #1, oral presentation).

Liu, Y., S. Wang, Cai, Z., and Q. Zhong. 2010. Enzymatic saccharification of woody biomass enhanced by NMMO pretreatment. The Forest Products Society 64th International Convention, June 20-22, Madison, WI (session 28, paper #4, oral presentation).

Meng, Y.*, S. Wang, and Cai, Z.. 2010. Effect of Moisture Content on the Nanomechanical Properties of Wood Cell Wall via Nanoindentation. The Forest Products Society 64th International Convention, June 20-22, Madison, WI. P. 77.

Nair, S.S.*, S. Wang, and D. Hurley. 2010. Nanoscale Characterization of Interphase and their Impact on the Performance of Natural Fiber Reinforced Polymer Composites. The Forest Products Society 64th International Convention, June 20-22, Madison, WI. P. 43.

Omid Hosseinaei*, S. Wang, A. M. Taylor, and T. G. Rials. 2010. Controlled Water Aging and Mold Susceptibility of Wood-Plastic Composites by Hemicellulose Extraction of Wood Flour. 11th Annual Biocomposites Conference (poster).

Omid Hosseinaei*, S. Wang, A.A. Enayati, and T. G. Rials. 2010. Integrated biorefining for wood-plastic composites and bioenergy production. 11th Annual Biocomposites Conference, Toronto, Canada, May 3-4. Pp. 1-9.

Wang, S., Hosseinaei, O.*, T. G. Rials, Xing, C.*, Kelley, S.S., and A. M. Taylor. 2010. Integrated process for both enhanced oriented strandboard and bioenergy production. Invited presentation to the IAWA, IAWS, IUFRO Conference, 23-26 June, Madison WI.

Wang, S., S.S. Nair*, D. Hurley, and S.H. Lee*. 2010. Advanced AFM-based techniques for characterizing composite interphases. 2010 International Conference on Nanotechnology for the Forest Products Industry, Espoo, Finland. 27-29 September. (invited)

Rials, T. G., D. P. Harper, N. Labbe, and S. Wang. 2009. Extracting wood flakes for composite panel innovation: Assessment of process stream characteristics. 43rd International Wood Composites Symposium. Seattle, WA. (invited).

Wang, S., and Q. Cheng. 2009. Cellulose fibrils as reinforcement materials: Process and characterization. The Fourth China-Europe Symposium on Processing and Properties of Reinforced Polymers, June 8-12, Guilin, China, pp.28.

Wang, S., and Z. Shi*. 2009. Preparation, Characterization and Application of Cellulose Nanofibrils: new exploration based on high-intensity ultrasonication. China-US Workshop on Biotechnology of Bioenergy Plants, Nov. 16-17, 2009, Knoxville, Tennessee. PP. 1.

Wang, S., C. Xing*, Y. Wu*, X. Zhang*, Q. Cheng*, and Y. Meng*. 2009. Nano-mechanics: theory, methodology and application in wood science. COST Action FP0802 Workshop: Experimental and Computational methods in wood micromechanics, May 11-13, Vienna, Austria. P. 91.

Wu, Y., S. Wang, D. Zhou, Y. Zhang, C. Xing, S-H Lee, and G. Du. 2009. Nano-mechanics and its applications in cellulose materials. Proceedings of the 16th International symposium on Nondestructive Testing and Evaluation of Wood. October 12-14, Beijing, China. Pp. 195-201.

Young, T. M., S. Wang, and Y. Wu. 2009. Modeling wood composite properties and processes using regression trees . 16th International Symposium on Nondestructive Testing and Evaluation of Wood, Beijing, China, Oct. 15-16, 2009. In Press. .

Cheng, Q.*, S. Wang, and T. G. Rials. 2008. Poly(vinyl alcohol) nanocomposites reinforced with cellulose fibrils isolated by high intensity ultrasonication. Forest Products Society 62nd International Convention, St. Louis, Missouri, June 22-24. Biographies and Abstracts. pp. 20.

Cheng, Q., S. Wang, D.Y. Harper, J. Wang, and Y. Liu.. 2008. Elastic modulus of single cellulose fibrils evaluated by atomic force microscopy. J. Wang, Y. Liu. Proceedings of IAWPS 2008, Harbin China, September 27-29. pp.531-533.

Cheng, Q.,, S. Wang, T. G. Rials, J. Wang,, and Y. Liu.. 2008. Cellulose fibril reinforced poly(vinyl alcohol) nanocomposites. Proceedings of IAWPS 2008, Harbin China, September 27-29. pp. 7-8.

Hosseinaei, O., S. Wang, T. G. Rials, S.S. Kelley, and A.A. Enayati. 2008. Production of enhanced OSB using hemicellulose extracted strands. Forest Products Society 62nd International Convention, St. Louis, Missouri, June 22-24. Biographies and Abstracts. pp. 8.

Nair, S. S., S. Wang, and D. Hurley. 2008. Evaluation of interphase properties in fiber reinforced polymer composite using contact resonance force microscopy. Proceedings of the 51th International Convention of Society of Wood Science and Technology, November 10-12, Concepción, Chile. Pp. 1-9.

Taylor, A. M., O. Hosseinaei, and S. Wang. 2008. Mold susceptibility of oriented strandboard made with extracted flakes. Paper presented at the annual meeting of the International Research Group on Wood Protection, IRG/WP 08-40402. pp. 1-8.

Wang, S. 2008. Young’s modulus of cellulose fibrils measured using atomic force microscopy. International Conference on Nanotechnology for the Forest Products Industry, June 25-27, 2008, St. Louis, USA. P. 28. .

Wang, S., C. Xing, and G. Pharr.. 2008. Nano-mechanical properties of lignocellulosic fibers measured by nanoindentation and its limitation. MRS International Materials Research Conference. Chongqing, China, June 9-12. P. 22-23.

Xing, C., and S. Wang. 2008. Nanotechnology-based approach to produce lightweight, strength-enhanced OSB. Abstract IN: Biographies and Abstracts. Forest Products Society 62nd International Convention, St. Louis, Missouri, June 22-24. pp. 8.

Xing, C., S. Wang, O. Hosseinaei, and T. G. Rials. 2008. Effect of hemicellulose extraction on wood cell wall mechanical properties. Abstract IN: Biographies and Abstracts. Forest Products Society 62nd International Convention, St. Louis, Missouri, June 22-24. pp. 38. .

Zhang, X., S. Wang, and E. Lara-Curzio. 2008. Mechanical properties of wood cell wall measured by micro-pillar compression test. Abstract IN: Biographies and Abstracts. Forest Products Society 62nd International Convention, St. Louis, Missouri, June 22-24. pp. 8.

Zhang, X., S. Wang, E. Lara-Curzio, and R. Trejo. 2008. Conducting micro-pillar compression testing on wood cell wall. Abstract IN: Biographies and Abstracts. Forest Products Society 62nd International Convention, St. Louis, Missouri, June 22-24. pp. 8.

Zhang, Y., and S. Wang. 2008. The wettability change of PF resin on the surface for wood strand under different drying conditions. Proceeding of IPC working Party on Harvesting and Utilization of Poplar and Willow Wood conference, Engineered wood Products Based on Poplar/Willow Wood, Nanjing, China, October 21-24. Pp152-159 (ISBN 9789080656574).

Zhou, Z., Y. Zhang, and S. Wang. 2008. Nano-mechanical properties of the pre-compressed poplar cell wall based on nanoindentation. Zhou, Z., Proceeding of IPC working Party on Harvesting and Utilization of Poplar and Willow Wood conference, Engineered wood Products Based on Poplar/Willow Wood, Nanjing, China, October 21-24. Pp55-64 (ISBN 9789080656574).

Cheng Q., and S. Wang. 2007. Cellulose fibrils isolated from Lyocell fiber by a novel process and its reinforced PVA nanocomposites. International Symposium on Advanced Biomass Science and Technology for Bio-based Products, May 23-25, Beijing, China, pp. 160-166.

Cheng, Q., S. Wang, and T. G. Rials. 2007. A Novel Method to Isolate Fibrils from Cellulose Fibers and Its Reinforced PVA Nanocomposites. The 9th International Conference on Wood & Biofiber Plastic Composites, May 21-23, 2007, Madison, Wisconsin. pp. 21 (Poster).

Cheng, Q., S. Wang, and T. G. Rials. 2007. Mechanical Properties of Single Natural Cellulose Fibrils. The 9th International Conference on Wood & Biofiber Plastic Composites, May 21-23, 2007, Madison, Wisconsin. pp. 21 (Poster).

Cheng, Q., S. Wang, and T. G. Rials. 2007. Mechanical Properties of Single Natural Cellulose Fibrils. Technical Association of Pulp and Paper Industry (TAPPI) & Forest Product Society, 2007 International Conference on Nanotechnology for the Forest Products Industry, June 13-15, Knoxville, TN. pp72 (Poster).

Cheng, Q., S. Wang, and T. G. Rials. 2007. Fibril Isolation and Its Reinforced Nanocomposites from Natural Biomass. Forest Product Society, 2007 Annual Meeting, June 10-13, Knoxville, TN. pp34 (Poster).

Cheng, Q., S. Wang, and T. G. Rials. 2007. Fibrils Isolated From Cellulose Fibers by a Novel Method and Its Reinforced Nanocomposites. Forest Product Society, 2007 Annual Meeting, June 10-13, Knoxville, TN. pp. 15 (Presentation).

Cheng, Q., S. Wang, and T. G. Rials. 2007. A Testing Method of Mechanical Property of Single Cellulosic Fibrils Using AFM. The 9th International Conference on Wood & Biofiber Plastic Composites May 21-23, 2007, Madison, Wisconsin (In press).

Cheng, Q., S. Wang, and T. G. Rials. 2007. Biodegradable nanocomposites reinforced with cellulose fibrils. Technical Association of Pulp and Paper Industry (TAPPI) & Forest Product Society, 2007 International Conference on Nanotechnology for the Forest Products Industry, June 13-15, Knoxville, TN. pp 61 (Poster).

Lee, S.H., S. Wang, Y. Teramoto, and T. G. Rials. 2007. Visualization of Interphase between Lyocell Fiber and Polypropylene by AFM. Poster presentation at International Conference on Nanotechnology for the Forest Products Industry, June 13-15, 2007, Knoxville, TN, USA. Pp. 87.

Nair, S. S., and S. Wang. 2007. Characterizing Wood Cell Wall Using Microthermal Analysis and Atomic Force Microscopy. Abstract IN: Biographies and Abstracts. Forest Products Society 61st International Convention, Knoxville, Tennessee, June 10-13. pp. 14.

Neimsuwan, T., and S. Wang. 2007. Sorption Behavior by Refining Fiber of Varying Pressure. Poster Abstract IN: Biographies and Abstracts. Forest Products Society 61st International Convention, Knoxville, Tennessee, June 10-13. pp30.

Neimsuwan, T., and S. Wang. 2007. Effect of Resin and Wax on Sorption Behavior of Wood Strands. Abstract IN: Biographies and Abstracts. Forest Products Society 61st International Convention, Knoxville, Tennessee, June 10-13. pp14.

Tabor-Smith, A. M., and S. Wang. 2007. Properties of enhanced commercial OSB flooring products. Abstract IN: Biographies and Abstracts., Forest Products Society 61st International Convention, Knoxville, Tennessee, June 10-13. pp. 13. (oral presentation).

Wang, S., G. Pharr, and S. H. Lee. 2007. Characterization of Interphase in Natural Fiber Reinforced Polymer Composites. Abstract IN: Genes to Products: Agricultural Plant, Microbe, and Biobased Products Research. Bethesda Marriott, Maryland, March 12-14. p. 232-233.

Wang, S., S. H. Lee, C. Xing, and G.M. Pharr. 2007. Determination of Nano Mechanical Properties of Lignocellulosic Fibers by Nanoindentation and Its Limitation. Abstract IN: Workshop on in situ methods in nanomechanics. Lawrence Berkeley National Laboratory, Berkeley, California, Aug. 1-3. pp. 37 (Poster presentation).

Wang, S., SH Lee, C. Xing, and G.M. Pharr. 2007. Nano Mechanical Properties of Cellulosic Fibers by Nanoindentation. Abstract IN: 2007 International Conference on Nanotechnology for the Forest Products Industry, June 13-15, Knoxville, TN. pp. 27 (oral presentation). (invited)

Wang, S., Y. Wu, C. Xing, G. Pharr, D. Zhou, and Y. Zhang. 2007. Comparing Nano-Mechanical Properties of the Wood Cell Wall by Nanoindentation. IUFRO All Division 5 Conference in Taipei, Oct 29-Nov 2, Grand Hotal, Taipei, Taiwan. pp. 154.

Wu, Y., S. Wang, D. Zhou, and Y. Zhang. 2007. Cell Wall Nano-Mechanical Properties of Crop Stalks by Nanoindentation. Poster presentation at International Conference on Nanotechnology for the Forest Products Industry, June 13-15, Knoxville, TN, USA. Pp. 62.

Wu, Y., S. Wang, D. Zhou, and Y. Zhang. 2007. Nano-Mechanical Properties of Wood Cell Wall: Species Influence. Abstract IN: Forest Products Society 61th International Convention, Knoxville, TN, June 10-13. pp. 15.

Xing, C., S. Wang, and T. G. Rials. 2007. OSB Manufacturing Using Wood Flakes Pre-Extracted the Hemicelluloses-Preliminary Results. Forest Products Society 61th International Convention, Knoxville, Tennessee, June 10-13. Biographies and Abstracts. pp. 34.

Xing, C., S. Wang, G. Pharr, L. Groom, and S. H. Lee. 2007. Effect of Refining On Nano-Mechanical Properties of MDF Fibers. Abstract IN: Biographies and Abstracts. Forest Products Society 61th International Convention, Knoxville, Tennessee, June 10-13. pp. 15.

Wang, S. 2006. Enhancing Composite Durability via Pressing Technology. Wood Protection, HM Barnes edited. P.181-185.

Lin, Y., L. Zhang, and S. Wang. 2021. New concept to convert whole biomass into nanomaterials. 2021 International Symposium of Institute of Forest Science, Oct. 22, Kangwon National University, South Korea. P. 14. (invited)

Wang, S. 2021. Optimizing wood composite processing and properties via press control strategies. Processing Technologies for the Forest & Biobased Products Industries PTF BPI 2021, Nov. 1-3, St. Simons Island, GA, USA. (invited)

Meng, Y.*, S. Wang, T. Young, and D. C. Hurley. 2012. Understanding the biomaterial's microstructure and mechanical properties in small scale using nanoindentation and advanced atomic force microscope based technology. The 2nd Biennial International Conference on Processing Technologies for the Biobased Products Indus, Nov. 6-7, St. Simons Island, GA P. 40 (invited). (invited)

Hosseinaei, O.*, S. Wang, and C. Xing*. 2011. Physical and mechanical properties of flakeboard made from high density wood after hemicelluloses extraction. Proceeding of 2011 International Symposium on Comprehensive Utilization of Wood Based Resources, Zhejiang, China, Nov. 23-25, 2011. Pp. 632-640. (invited)

Meng, Y*, S. Wang, Z. Cai, G. Du, and T. M. Young. 2011. Effect of load function on the nanoindentation measurement of wood cell wall. The Proceeding of 2011 International Symposium on Comprehensive Utilization of Wood Based Resources. Zhejiang, China, Nov. 23-25, 2011. Pp. 967-978. (invited)

Wang, S., S.S. Nair*, D. Hurley, and S.H. Lee*. 2010. Advanced AFM-based techniques for characterizing composite interphases. 2010 International Conference on Nanotechnology for the Forest Products Industry, Espoo, Finland. 27-29 September. (invited)

Wang, S., SH Lee, C. Xing, and G.M. Pharr. 2007. Nano Mechanical Properties of Cellulosic Fibers by Nanoindentation. Abstract IN: 2007 International Conference on Nanotechnology for the Forest Products Industry, June 13-15, Knoxville, TN. pp. 27 (oral presentation). (invited)

Theses/Dissertations completed by directed students

Huang, C.* 2015. Microstructural and Micromechanical Properties of Thermo-treated Bamboo Cell Wall. M.S. Thesis, 60pp. (Co-Advisor with Y. Li).

Meng, Y.* 2010. Methods for characterizing mechanical properties of wood cell walls via nanoindentation. M.S. Thesis, 145 pp.

Xinan Zhang* 2008. Characterizing strength and fracture of wood micropillars under uniaxial compression. MS Thesis, 89pp. (Major professor).

Zhou, Z* 2025. Innovative Lignin Nanoparticle Manufacturing and Applications in Sustainable Packaging Solutions. Ph.D. Dissertation, 204pp.

Zhang Q.* 2020. Electrospun poly(vinyl alcohol)/cellulose nanocrystals composite nanofibrous filter: investigation of fabrication and application. Ph.D. Dissertation, 125pp.

Huang, J.* 2018. Research on preparation and wear mechanism of nanocellulose-based superhydrophobic coatings. Ph.D. Dissertation, 137 pp.

Ma, L.* 2016. Study of nano cellulose and its carbonized products reinforced in thermoplastics. Ph.D. Dissertation, 97 pp, co-advisor.

Wang, X.* 2016. Nanoscale inverstigation of the interfacial properties and modification mechanism of wood-adhesive interphase. Ph.D. Dissertation (co-advisor), 106 pp.

Xu, D.* 2016. Study on thermal conductivity and structure properties of wood materials at microscale by scanning thermal microscopy. Ph.D. Dissertation, 98 pp.

Meng Y.* 2015. Nanoscaled cellulose and its carbonaceous material: application and local structure. Ph.D. Dissertation, 111 pp.

Nair, S. S.* 2011. Nanoscale characterization of fiber/matrix interphase and its impact on the performance of natural fiber reinforced polymer composites. Ph.D. Dissertation.

Wu, Y.* 2009. Nano-mechanical properties and potential application of straw fiber. Ph.D. Dissertation, Student at Nanjing Forestry University, China. 89pp.

Cheng, Q.* 2007. Fabrication and Analysis of Polymeric Nanocomposites from Cellulose Fibrils. Ph.D. Dissertation, 310 pp.

Neimsuwan, T.* 2007. The Influence of Selected Wood Characteristics and Composites Production Parameters on the Sorption Behavior of Wood Materials. Ph.D. Dissertation, 168 pp.

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* Siqun Wang served as major professor for this author.