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[37] Mao, Q., Wang, Y., Li, Y., Juengpanich, S., Li, W., Chen, M., Yin, J., Fu, J., and Cai, X., “Fabrication of liver microtissue with liver decellularized extracellular matrix (dECM) bioink by digital light processing (DLP) bioprinting,“ Materials Science and Engineering: C, Vol. 109, 110625, 2020. [Link]
[36] Li, Y., Mao, Q., Li, X., Yin, J., Wang, Y., Fu, J., and Huang, Y., “High-fidelity and high-efficiency additive manufacturing using tunable pre-curing digital light processing,” Additive Manufacturing, Vol. 30, pp. 100889, 2019. [Link]
[35] Wu, Y., Hao, X., Xiao, R., Lin, J., Wu, Z., Yin, J., and Qian, J., “Controllable bending of bi-hydrogel strips with differential swelling,” Acta Mechanica Solida Sinica, Vol. 32, pp. 652-662, 2019. [Link]
[34] Cui, H., Yu, Y., Li, X., Sun, Z., Ruan, J., Wu, Z., Qian, J., and Yin, J., “Direct 3D printing of tough hydrogel incorporated with carbon nanotubes for bone regeneration,” Journal of Materials Chemistry B, Vol. 7, pp. 7207-7217, 2019. [Link]
[33] Chen, Z., Zhao, D., Liu, B., Nian, G., Li, X., Yin, J., Qu, S., and Yang, W., “3D printing of multifunctional hydrogels,” Advanced Functional Materials, Vol. 1900971, pp. 1-8, 2019. [Link]
[32] Liu, J., Li, L., Suo, H., Yan, M., Yin, J., and Fu, J., “3D printing of biomimetic multi-layered GelMA/nHA scaffold for osteochondral defect repair,” Materials & Design, Vol. 171, pp. 107708, 2019. [Link]
[31] Wang, Z., Lin, J., Zhang, D., Xun, B., Yin, J., Qian, J., Dai, G., Zhang, N., Wen, X., Huang, Y., and Fu, J., “Porous morphology and mechanical properties of poly (lactide-co-glycolide) hollow fiber membranes governed by ternary-phase inversion,” Journal of Membrane Science, Vol. 579, pp. 180-189, 2019. [Link]
[30] Yin, J., Zhao, D., and Liu, J., “Trends on physical understanding of bioink printability,” Bio-Design and Manufacturing, Vol. 2, pp. 50-54, 2019. [Link]
[29] Wu, Y., Xiang, Y., Fang, J., Li, X., Lin, W., Dai, G., Yin, J., Wei, P., and Zhang, D., “The influence of the stiffness of GelMA substrate on the outgrowth of PC12 cells,” Bioscience Reports, Vol. 39, pp. BSR20181748, 2019. [Link]
[28] Zhang, Z., Jin, Y., Yin, J., Xu, C., Xiong, R., Christensen, K., Ringeisen, B. R., Chrisey, D. B., and Huang, Y., “Evaluation of bioink printability for bioprinting applications,” Applied Physics Reviews, Vol. 5, pp. 041304, 2018. [Link]
[27] Sun, L., Fan, Z., Yue, T., Yin, J., Fu, J., and Zhang, M., “Additive nanomanufacturing of lab-on-a-chip fluorescent peptide nanoparticle arrays for Alzheimer’s disease diagnosis,” Bio-Design and Manufacturing, Vol. 1, pp. 182-194, 2018. [Link]
[26] Zheng, S., Shen, Y., Zhu, F., Yin, J., Qian, J., Fu, J., Wu, Z., and Zheng, Q., “Programmed deformations of 3D-printed tough physical hydrogels with high response speed and large output force,” Advanced Functional Materials, Vol. 1803366, pp. 1-8, 2018. [Link]
[25] Suo, H., Zhang, D., Yin, J., Qian, J., Wu, Z., and Fu, J., “Interpenetrating polymer network hydrogels composed of chitosan and photocrosslinkable gelatin with enhanced mechanical properties for tissue engineering,” Materials Science and Engineering: C, Vol. 92, pp. 612-620, 2018. [Link]
[24] Yin, J., Zhang, D., Xiang, Y., Wei, P., Yang, Z., Wang, Z., and Fu, J., “The influence of cross-sectional morphology on the compressive resistance of polymeric nerve conduits,” Polymer, Vol. 148, pp. 93-100, 2018. [Link]
[23] Suo, H., Wang, Z., Dai, G., Fu, J., Yin, J., and Chang, L., “Polyacrylonitrile nerve conduits with inner longitudinal grooved textures to enhance neuron directional outgrowth,” Journal of Microelectromechanical Systems, Vol. 27, pp. 457-463, 2018. [Link]
[22] Zhu, F., Lin, J., Wu, Z., Qu, S., Yin, J., Qian, J., and Zheng, Q., “Tough and conductive hybrid hydrogels enabling facile patterning,” ACS Applied Materials & Interfaces, Vol. 10, pp. 13685-13692, 2018. [Link]
[21] Yin, J., Lu, C., Fu, J., Huang, Y., and Zheng, Y., “Interfacial bonding during multi-material fused deposition modeling process due to inter-molecular diffusion,” Materials & Design, Vol. 150, pp. 104-112, 2018. [Link]
[20] Jin, Y., Shen, Y., Yin, J., Qian, J., and Huang, Y., 'Nanoclay-based self-supporting responsive nanocomposite hydrogels for printing applications,' ACS Applied Materials & Interfaces, Vol. 10, pp. 10461-10470, 2018. [Link]
[19] Yin, J., Yan, M., Wang, Y., Fu, J., and Suo, H., “3D bioprinting of low concentration cell-laden gelatin methacrylate (GelMA) bioinks with two-step crosslinking strategy,” ACS Applied Materials & Interfaces, Vol. 10, pp. 6849-6857, 2018. [Link]
[18] Yin, J., Wang, Z., Chai, W., Dai, G., Suo, H., Zhang, N., Wen, X., and Huang, Y., “Fabrication of inner grooved hollow fiber membranes using microstructured spinneret for nerve regeneration,” Journal of Manufacturing Science and Engineering-Transactions of the ASME, Vol. 139, pp. 111007, 2017. [Link]
[17] Zhu, F., Cheng, L., Wang, Z., Hong, W., Wu, Z., Yin, J., Qian, J., and Zheng, Q., “3D-printed ultratough hydrogel structures with titin-like domains,” ACS Applied Materials & Interfaces, Vol. 9, pp. 11363–11367, 2017. [Link]
[16] Zheng, S. Y., Ding, H., Qian, J., Yin, J., Wu, Z. L., Song, Y., and Zheng, Q., “Metal-coordination complexes mediated physical hydrogels with high toughness, stick–slip tearing behavior, and good processability,” Macromolecules, Vol. 49, pp. 9637–9646, 2016. [Link]
[15] Zhu, F., Cheng, L., Yin, J., Wu, Z., Qian, J., Fu, J., and Zheng, Q., “3D printing of ultra-tough polyion complex hydrogels,” ACS Applied Materials & Interfaces, Vol. 8, pp. 31304–31310, 2016. [Link]
[14] Yin, J., and Zhang, Z., 'Laryngeal muscular control of vocal fold posturing: numerical modeling and experimental validation,' Journal of the Acoustical Society of America, Vol. 140, pp. EL280-284, 2016. [Link]
[13] Lin, J., Qian, J., Yin, J., and Lin, Y., 'Biointerfaces mediated by molecular bonds: cohesive behaviors,' International Journal of Applied Mechanics, Vol. 08, pp. 1650040, 2016. [Link]
[12] Zhu, F., Lin, X., Wu, Z., Cheng, L., Yin, J., Song, Y., Qian, J., and Zheng, Q., 'Processing tough supramolecular hydrogels with tunable strength of polyion complex', Polymer, Vol. 95, PP. 9-17, 2016. [Link]
[11] Yin, J., and Zhang, Z., 'Interaction between the thyroarytenoid and lateral cricoarytenoid muscles in the control of vocal fold adduction and eigenfrequencies,' Journal of Biomechanical Engineering-Transactions of the ASME, Vol. 136, pp. 111006, 2014. [Link]
[10] Yin, J., and Zhang, Z., “The influence of thyroarytenoid and cricothyroid muscle activation on vocal fold stiffness and eigenfrequencies,” Journal of the Acoustical Society of America, Vol. 133, pp. 2972-2983, 2013. [Link]
[9] Yin, J., Coutris, N., and Huang, Y., “Numerical study of axonal outgrowth in grooved nerve conduits,” Journal of Neural Engineering, Vol. 9, pp. 056001-1-12, 2012. [Link]
[8] Yin, J., Coutris, N., and Huang, Y., “Experimental investigation of aligned groove formation on the inner surface of polyacrylonitrile hollow fiber membrane,” Journal of Membrane Science, Vol. 394-395, pp. 57-68, 2012. [Link]
[7] Yin, J., and Huang, Y., “Study of process-induced cell membrane stability in cell direct writing,” Journal of Manufacturing Science and Engineering-Transactions of the ASME, Vol. 133, pp. 054501, 2011. [Link]
[6] Yin, J., Coutris, N., and Huang, Y., “Investigation of inner surface groove formation under radially inward pressure during immersion precipitation-based hollow fiber membrane fabrication,” Journal of Manufacturing Science and Engineering-Transactions of the ASME, Vol. 133, pp. 031003, 2011. [Link]
[5] Yin, J., Coutris, N., and Huang, Y., “Groove formation modeling in fabricating hollow fiber membrane for nerve regeneration,” Journal of Applied Mechanics-Transactions of the ASME, Vol. 78, pp. 011017, 2011. [Link]
[4] Yin, J., Coutris, N., and Huang, Y., “Role of Marangoni instability in fabrication of axially and internally grooved hollow fiber membranes,” Langmuir, Vol. 26, pp. 16991–16999, 2010. [Link]
[3] Yin, J., and Zhao, Y., “Hybrid QM/MM simulation of the hydration phenomena of dipalmitoylphosphatidylcholine headgroup,” Journal of Colloid and Interface Science, Vol. 329, pp. 410-415, 2009. [Link]
[2] Yin, J., and Zhao, Y., “Molecular dynamics simulation of adhesion forces in a dipalmitoylphosphatidylcholine membrane,” Surface Review and Letters, Vol. 14, pp. 671-675, 2007. [Link]
[1] Yin, J., Zhao, Y., and Zhu, R., “Molecular dynamics simulation of barnacle cement,” Materials Science & Engineering A, Vol. 409, pp. 160-166, 2005. [Link]
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