第 1 到 23 筆結果,共 23 筆。
公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 | |
---|---|---|---|---|---|---|---|
1 | 2018 | Carbon Nanodot Additives Realize High-Performance Air-Stable p–i–n Perovskite Solar Cells Providing Efficiencies of up to 20.2% | Hsu, H.-L.; Hsiao, H.-T.; Juang, T.-Y.; Jiang, B.-H.; Chen, S.-C.; Jeng, R.-J.; Chen, C.-P.; RU-JONG JENG | Advanced Energy Materials | |||
2 | 2015 | Enhanced efficiency of organic and perovskite photovoltaics from shape-dependent broadband plasmonic effects of silver nanoplates | Hsu, H.-L.; Juang, T.-Y.; Chen, C.-P.; Hsieh, C.-M.; Yang, C.-C.; Huang, C.-L.; Jeng, R.-J.; RU-JONG JENG | Solar Energy Materials and Solar Cells | |||
3 | 2014 | Honeycomb-like polymeric films from dendritic polymers presenting reactive pendent moieties | Su, Y.-A.; Chen, W.-F.; Juang, T.-Y.; Ting, W.-H.; Liu, T.-Y.; Hsieh, C.-F.; Dai, S.A.; Jeng, R.-J.; RU-JONG JENG | Polymer (United Kingdom) | |||
4 | 2012 | Organic/metallic nanohybrids based on amphiphilic dumbbell-shaped dendrimers | Shau, S.-M.; Chang, C.-C.; Lo, C.-H.; Chen, Y.-C.; Juang, T.-Y.; Dai, S.A.; Lee, R.-H.; Jeng, R.-J.; RU-JONG JENG | ACS Applied Materials and Interfaces | |||
5 | 2012 | Individual graphene oxide platelets through direct molecular exfoliation with globular amphiphilic hyperbranched polymers | Shau, S.-M.; Juang, T.-Y.; Lin, H.-S.; Huang, C.-L.; Hsieh, C.-F.; Wu, J.-Y.; Jeng, R.-J.; RU-JONG JENG | Polymer Chemistry | |||
6 | 2012 | Preparation of supramolecular extenders with precise chain lengths via iterative synthesis and their applications in polyurethane elastomers | Kuo, M.-C.; Shau, S.-M.; Su, J.-M.; Jeng, R.-J.; Juang, T.-Y.; Dai, S.A.; RU-JONG JENG | Macromolecules | |||
7 | 2011 | Poly(urethane/malonamide) dendritic structures featuring blocked/deblocked isocyanate units | Chen, Y.-C.; Wu, W.-Y.; Juang, T.-Y.; Dai, S.A.; Su, W.-C.; Liu, Y.-L.; Lee, R.H.; Jeng, R.-J.; RU-JONG JENG | Polymer Chemistry | |||
8 | 2011 | Exfoliation of layered silicates through in situ controlled free radical polymerization mediated by a silicate-anchored initiator | Shau, S.-M.; Juang, T.-Y.; Ting, W.-H.; Wu, M.-Y.; Dai, S.A.; Jeng, R.-J.; RU-JONG JENG | Polymer Chemistry | |||
9 | 2011 | Single-layered graphene oxide nanosheet/polyaniline hybrids fabricated through direct molecular exfoliation | Chen, G.-L.; Shau, S.-M.; Juang, T.-Y.; Lee, R.-H.; Chen, C.-P.; Suen, S.-Y.; Jeng, R.-J.; RU-JONG JENG | Langmuir | |||
10 | 2011 | Tailored thermal and mechanical properties of epoxy resins prepared using multiply hydrogen-bonding reactive modifiers | Liu, J.-K.; Shau, S.-M.; Juang, T.-Y.; Chang, C.-C.; Dai, S.A.; Su, W.-C.; Lin, C.-H.; Jeng, R.-J.; RU-JONG JENG | Journal of Applied Polymer Science | |||
11 | 2011 | Using a breath-figure method to self-organize honeycomb-like polymeric films from dendritic side-chain polymers | Chang, C.-C.; Juang, T.-Y.; Ting, W.-H.; Lin, M.-S.; Yeh, C.-M.; Dai, S.A.; Suen, S.-Y.; Liu, Y.-L.; Jeng, R.-J.; RU-JONG JENG | Materials Chemistry and Physics | |||
12 | 2011 | Thermally stable hyperbranched nonlinear optical polyimides using an "a2+B3" approach | Chen, Y.-C.; Lo, W.-C.; Juang, T.-Y.; Dai, S.A.; Su, W.-C.; Chou, C.-C.; Jeng, R.-J.; RU-JONG JENG | Materials Chemistry and Physics | |||
13 | 2011 | A reactive modifier that enhances the thermal mechanical properties of epoxy resin through the formation of multiple hydrogen-bonded network | Juang, T.-Y.; Liu, J.-K.; Chang, C.-C.; Shau, S.-M.; Tsai, M.-H.; Dai, S.A.; Su, W.-C.; Lin, C.-H.; Jeng, R.-J.; RU-JONG JENG | Journal of Polymer Research | |||
14 | 2011 | Sequential self-repetitive reaction toward wholly aromatic polyimides with highly stable optical nonlinearity | Lin, H.-L.; Juang, T.-Y.; Chan, L.-H.; Lee, R.-H.; Dai, S.A.; Liu, Y.-L.; Su, W.-C.; Jeng, R.-J.; RU-JONG JENG | Polymer Chemistry | |||
15 | 2010 | Nanoscale organic/inorganic hybrids based on self-organized dendritic macromolecules on montmorillonites | Juang, T.-Y.; Chen, Y.-C.; Tsai, C.-C.; Dai, S.A.; Wu, T.-M.; Jeng, R.-J.; RU-JONG JENG | Applied Clay Science | |||
16 | 2009 | Nonlinear optical, poly(amide-imide)-clay nanocomposites comprising an azobenzene moiety synthesised via sequential self-repetitive reaction | Lin, H.-L.; Chang, H.-L.; Juang, T.-Y.; Lee, R.-H.; Dai, S.A.; Liu, Y.-L.; Jeng, R.-J.; RU-JONG JENG | Dyes and Pigments | |||
17 | 2009 | Orderly arranged NLO materials based on chromophore-containing dendrons on exfoliated layered templates | Chen, Y.-C.; Juang, T.-Y.; Wu, T.-M.; Dai, S.A.; Kuo, W.-J.; Liu, Y.-L.; Chen, F.M.C.; Jeng, R.-J.; RU-JONG JENG | ACS Applied Materials and Interfaces | |||
18 | 2009 | Dendronized organic-inorganic nonlinear optical hybrid materials with homogeneous morphology | Chen, Y.-C.; Yang, Y.-J.; Juang, T.-Y.; Chan, L.-H.; Dai, S.A.; Chen, F.M.C.; Su, W.-C.; Jeng, R.-J.; RU-JONG JENG | Synthetic Metals | |||
19 | 2008 | Optical non-linearity from montmorillonite intercalated with a chromophore-containing dendritic structure: A self-assembly approach | Chen, Y.-C.; Juang, T.-Y.; Dai, S.A.; Wu, T.-M.; Lin, J.-J.; Jeng, R.-J.; RU-JONG JENG ; JIANG-JEN LIN | Macromolecular Rapid Communications | |||
20 | 2007 | Synthesis of N-aryl azetidine-2,4-diones and polymalonamides prepared from selective ring-opening reactions | Dai, S.A.; Juang, T.-Y.; Chen, C.-P.; Chang, H.-Y.; Kuo, W.-J.; Su, W.-C.; Jeng, R.-J.; RU-JONG JENG | Journal of Applied Polymer Science | |||
21 | 2007 | Organo-clay hybrids based on dendritic molecules: Preparation and characterization | Juang, T.-Y.; Tsai, C.-C.; Wu, T.-M.; Dai, S.A.; Chen, C.-P.; Lin, J.-J.; Liu, Y.-L.; Jeng, R.-J.; RU-JONG JENG ; JIANG-JEN LIN | Nanotechnology | |||
22 | 2006 | Synthesis and montmorillonite-intercalated behavior of dendritic surfactants | Tsai, C.-C.; Juang, T.-Y.; Dai, S.A.; Wu, T.-M.; Su, W.-C.; Liu, Y.-L.; Jeng, R.-J.; RU-JONG JENG | Journal of Materials Chemistry | |||
23 | 2005 | Stable second-order NLO semi-IPN system based on bipyridine-containing polyimide and alkoxysilane dye | Kuo, W.-J.; Chang, M.-C.; Juang, T.-Y.; Chen, C.-P.; Chen, C.-T.; Chang, H.-L.; Jeng, R.-J.; RU-JONG JENG | Polymers for Advanced Technologies |