Issue Date | Title | Author(s) | Source | scopus | WOS | Fulltext/Archive link |
2015 | 1,4氫?咯並[3,2-b]?咯之二號位及五號位雙取代基系列化合物其合成及光電性質之探討 | 吳佳穎; Wu, Jia-Ying | | | |  |
2018 | 100% Atom-Economy Efficiency of Recycling Polycarbonate into Versatile Intermediates | Wu, C.-H.; Chen, L.-Y.; Jeng, R.-J.; Dai, S.A.; RU-JONG JENG | ACS Sustainable Chemistry and Engineering | 40 | 38 | |
2018 | 3D bioprinting nerve | Hsu, S.-H.; Chen, C.-W.; SHAN-HUI HSU | 3D Bioprinting for Reconstructive Surgery: Techniques and Applications | 0 | 0 | |
2015 | 3D bioprinting of neural stem cell-laden thermoresponsive biodegradable polyurethane hydrogel and potential in central nervous system repair | Hsieh, F.-Y.; Lin, H.-H.; Hsu, S.-H.; SHAN-HUI HSU | Biomaterials | 323 | 289 | |
2015 | 3D bioprinting: A new insight into the therapeutic strategy of neural tissue regeneration | Hsieh, F.-Y.; Hsu, S.-H.; SHAN-HUI HSU | Organogenesis | 74 | 61 | |
2016 | 3D printing of photocurable poly(glycerol sebacate) elastomers | Yeh Y.-C.; Highley C.B.; Ouyang L.; Burdick J.A.; YI-CHEUN YEH | Biofabrication | 61 | 75 | |
2016 | 3D Printing of Polyurethane Biomaterials | Hung, K.-C.; Tseng, C.-S.; Hsu, S.-H.; SHAN-HUI HSU | Advances in Polyurethane Biomaterials | 21 | 0 | |
2018 | 3D printing of tubular scaffolds with elasticity and complex structure from multiple waterborne polyurethanes for tracheal tissue engineering | Hsieh, C.-T.; Liao, C.-Y.; Dai, N.-T.; Tseng, C.-S.; Yen, B.L.; Hsu, S.-H.; SHAN-HUI HSU | Applied Materials Today | 36 | 37 | |
2020 | A 3D-printable, glucose-sensitive and thermoresponsive hydrogel as sacrificial materials for constructs with vascular-like channels | Tsai, Y.-L.; Theato, P.; Huang, C.-F.; Hsu, S.-H.; SHAN-HUI HSU | Applied Materials Today | 23 | 20 | |
2014 | 4-乙烯基吡啶高分子與扇狀苯甲酸衍生物形成之超分子的相分離行為與結構分析 | 賴姿羽; Lai, Tzu-Yu | | | |  |
2021 | 4D bioprintable self-healing hydrogel with shape memory and cryopreserving properties | Wu S.-D; SHAN-HUI HSU ; SHAN-HUI HSU | Biofabrication | 17 | 16 | |
2014 | A composite catalytic film of Ni-NPs/PEDOT: PSS for the counter electrodes in dye-sensitized solar cells | Chang, L.-Y.; Li, Y.-Y.; Li, C.-T.; Lee, C.-P.; Fan, M.-S.; Vittal, R.; Ho, K.-C.; Lin, J.-J.; JIANG-JEN LIN ; KUO-CHUAN HO | Electrochimica Acta | 15 | 15 | |
1978 | A convenient method for the stereoselective reduction of alkynes to alkenes by the new reagents MgH2-CuI and MgH2-CuO-t-Bu | Ashby, E.C.; Lin, J.J.; Goel, A.B.; JIANG-JEN LIN | Journal of Organic Chemistry | | | |
2013 | A facile approach to multicolored electrochromic triarylamine-based thermoset epoxy materials with tunable intervalence charge transfer behavior | Chuang, Y.-W.; Yen, H.-J.; Liou, G.-S.; GUEY-SHENG LIOU | Chemical Communications | 25 | 25 | |
2010 | A facile approach towards optically isotropic, colorless, and thermoplastic polyimidothioethers with high refractive index | Yen, H.-J.; Liou, G.-S.; GUEY-SHENG LIOU | Journal of Materials Chemistry | 32 | 27 | |
2008 | A facile route for creating "reverse" vesicles: Insights into "reverse" self-assembly in organic liquids | Tung, S.-H.; Lee, H.-Y.; Raghavan, S.R.; SHIH-HUANG TUNG | Journal of the American Chemical Society | 79 | 77 | |
2012 | A graphene based saturable absorber on stable mode-locked fiber lasers employing nano-mica dispersant | Huang, P.L.; Hsieh, B.-Z.; Huang, S.-H.; Yeh, C.-Y.; Lin, J.-J.; Cheng, W.-H.; JIANG-JEN LIN | 2012 IEEE Photonics Conference | 0 | 0 | |
2002 | A new class of aromatic poly(1,3,4-oxadiazole)s and poly(amide-1,3,4-oxadiazole)s containing (naphthalenedioxy)diphenylene groups | Hsiao, S.-H.; Liou, G.-S.; GUEY-SHENG LIOU | Polymer Journal | 25 | 22 | |
2006 | A new class of high Tg and organosoluble aromatic poly(amine-1,3,4-oxadiazole)s containing donor and acceptor moieties for blue-light-emitting materials | Liou, G.-S.; Hsiao, S.-H.; Chen, W.-C.; Yen, H.-J.; GUEY-SHENG LIOU ; WEN-CHANG CHEN | Macromolecules | 68 | 64 | |
1997 | A New Class of Organic-Inorganic Sol-Gel Materials for Second-Order Nonlinear Optics | Hsiue, G.-H.; Lee, R.-H.; Jeng, R.-J.; RU-JONG JENG | Chemistry of Materials | | | |