第 1 到 26 筆結果,共 26 筆。
公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 | |
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1 | 2021 | Boost reactivity of tri-iodide reduction electrode by highly faceted octahedral PtNi nanocrystals | Chou, SW; Yang, YY; Lin, CY; Goran, D; Chou, KC; Chou, PT; PI-TAI CHOU | JOURNAL OF CATALYSIS | 5 | 4 | |
2 | 2021 | Vertical 2D/3D Heterojunction of Tin Perovskites for Highly Efficient HTM-Free Perovskite Solar Cell | Lin J.-T; Chu T.-C; Chen D.-G; Huang Z.-X; Chen H.-C; Li C.-S; Wu C.-I; Chou P.-T; Chiu C.-W; CHING-WEN CHIU ; HAO MING CHEN ; PI-TAI CHOU ; CHIH-I WU | ACS Applied Energy Materials | 22 | 19 | |
3 | 2020 | Thermal and angular dependence of next-generation photovoltaics under indoor lighting | Chen C.-Y; Kuo T.-Y; Huang C.-W; Jian Z.-H; Hsiao P.-T; Wang C.-L; Lin J.-C; Chen C.-Y; Chen C.-H; Tung Y.-L; Tsai M.-C; Huang K.-M; Chen C.-M; Hsu C.-W; Chen Y.-C; Pei Z; Tingare Y.S; Chou H.-H; Yeh C.-Y; Lin C.-Y; Lee Y.-L; Lin H.-W; Meng H.-F; PI-TAI CHOU ; Wu C.-G. | Progress in Photovoltaics: Research and Applications | 11 | 11 | |
4 | 2018 | PtCoFe Nanowire Cathodes Boost Short-Circuit Currents of Ru(II)-Based Dye-Sensitized Solar Cells to a Power Conversion Efficiency of 12.29% | Chiang, C.-C.P.; Hung, C.-Y.; Chou, S.-W.; Shyue, J.-J.; Cheng, K.-Y.; Chang, P.-J.; Yang, Y.-Y.; Lin, C.-Y.; Chang, T.-K.; Chi, Y.; Chou, H.-L.; Chou, P.-T. | Advanced Functional Materials | 68 | 65 | |
5 | 2017 | Breaking the Kasha Rule for More Efficient Photochemistry | Demchenko, A.P.; Tomin, V.I.; Chou, P.-T. | Chemical Reviews | 257 | 253 | |
6 | 2016 | Tri-iodide Reduction Activity of Shape- and Composition-Controlled PtFe Nanostructures as Counter Electrodes in Dye-Sensitized Solar Cells | Chang, P.-J.; Cheng, K.-Y.; Chou, S.-W.; Shyue, J.-J.; Yang, Y.-Y.; Hung, C.-Y.; Lin, C.-Y.; Chen, H.-L.; Chou, H.-L.; Chou, P.-T. | Chemistry of Materials | 46 | 45 | |
7 | 2015 | Interplay of Molecular Orientation, Film Formation, and Optoelectronic Properties on Isoindigo- and Thienoisoindigo-Based Copolymers for Organic Field Effect Transistor and Organic Photovoltaic Applications | Lu, C.; Chen, H.-C.; Chuang, W.-T.; Hsu, Y.-H.; WEN-CHANG CHEN ; PI-TAI CHOU | Chemistry of Materials | 57 | ||
8 | 2014 | Metal complexes with pyridyl azolates: Design, preparation and applications | Chi, Y.; Tong, B.; Chou, P.-T.; PI-TAI CHOU | Coordination Chemistry Reviews | 117 | 117 | |
9 | 2014 | Strategic design of three-dimensional (3D) urchin-like Pt-Ni nanoalloys: How this unique nanostructure boosts the bulk heterojunction polymer solar cells efficiency to 8.48% | Chou, S.-W.; Chen, H.-C.; Zhang, Z.; Tseng, W.-H.; CHIH-I WU ; Yang, Y.-Y.; Lin, C.-Y.; PI-TAI CHOU | Chemistry of Materials | 15 | 15 | |
10 | 2013 | Fluorinated thienyl-quinoxaline-based D-π-A-type copolymer toward efficient polymer solar cells: Synthesis, characterization, and photovoltaic properties | Chen, H.-C.; Chen, Y.-H.; Liu, C.-H.; Hsu, Y.-H.; Chien, Y.-C.; Chuang, W.-T.; Cheng, C.-Y.; Liu, C.-L.; Chou, S.-W.; Tung, S.-H.; Chou, P.-T.; SHIH-HUANG TUNG ; PI-TAI CHOU | Polymer Chemistry | |||
11 | 2012 | Dye molecular structure device open-circuit voltage correlation in Ru(II) sensitizers with heteroleptic tridentate chelates for dye-sensitized solar cells | PI-TAI CHOU | Journal of the American Chemical Society | 122 | 117 | |
12 | 2012 | Prominent Short-Circuit Currents of Fluorinated Quinoxaline-Based Copolymer Solar Cells with a Power Conversion Efficiency of 8.0% | Chen, Hsieh-Chih; Chen, Ying-Hsiao; Liu, Chi-Chang; Chien, Yun-Chen; Chou, Shang-Wei; CHI-CHANG LIU ; PI-TAI CHOU | Chemistry of Materials | 325 | 316 | |
13 | 2012 | Ru(ii) sensitizers with a tridentate heterocyclic cyclometalate for dye-sensitized solar cells | PI-TAI CHOU | Energy and Environmental Science | 56 | 51 | |
14 | 2011 | Enhanced Performance and Air Stability of 3.2% Hybrid Solar Cells: How the Functional Polymer and CdTe Nanostructure Boost the Solar Cell Efficiency | Chen, Hsieh-Chih; Lai, Chih-Wei; Wu, I-Che; Pan, Hsin-Ru; Chen, I-Wen P.; Peng, Yung-Kang; Liu, Chien-Liang; Chen, Chun-Hsien; Chou, Pi-Tai; CHUN-HSIEN CHEN ; PI-TAI CHOU | Advanced Materials | 113 | 105 | |
15 | 2011 | Superiority of branched side chains in spontaneous nanowire formation: Exemplified by poly(3-2-methylbutylthiophene) for high-performance solar cells | Chen, H. C.; Wu, I. C.; Hung, J. H.; Chen, F. J.; Chen, I. W. P.; Peng, Y. K.; Lin, C. S.; Chen, C. H.; Sheng, Y. J.; Tsao, H. K.; Chou, P. T.; YU-JANE SHENG ; PI-TAI CHOU ; Lin, Chao-Sung | Small | 15 | 15 | |
16 | 2011 | Well-defined mesoporous nanostructure modulates three-dimensional interface energy transfer for two-photon activated photodynamic therapy | Cheng, Shih-Hsun; Hsieh, Cheng-Chih; Chen, Nai-Tzu; Chu, Chia-Hui; Huang, Ching-Mao; PI-TAI CHOU ; Tseng, Fan-Gang; Yang, Chung-Shi; CHUNG-YUAN MOU ; Lo, Leu-Wei | Nano Today | 54 | 48 | |
17 | 2010 | Donor-acceptor organic sensitizers assembled with isoxazole or its derivative 3-oxopropanenitrile | Li, Yi-Tsung; Chen, Chao-Ling; Hsu, Yu-Yen; Hsu, Hui-Chu; Chi, Yun; Chen, Bo-So; Liu, Wei-Hsin; Lai, Cheng-Hsuan; Lin, Tsung-Yi; Chou, Pi-Tai; PI-TAI CHOU | Tetrahedron | 49 | 46 | |
18 | 2008 | Phosphorescent iridium(III) complexes with nonconjugated cyclometalated ligands | Yun Chi,; Yi-Hwa Chiu,; Yuan-Chieh Chi,; Cheng, Yi-Ming; Lai, Cheng-Hsuan; PI-TAI CHOU ; KEN-TSUNG WONG ; Tsai, Ming-Han; CHUNG-CHIH WU | Chemistry-A European Journal | 90 | 88 | |
19 | 2008 | Cu(i) chelated poly-alkoxythiophene enhancing photovoltaic device composed of a P3HT/PCBM heterojunction system | Wu, I-Che; Lai, Cheng-Hsuan; Chen, Dong-Yi; Shih, Chun- Wei; Wei, Ching-Yen; Ko, Bao-Tsan; Ting, Ching; Chou, Pi-Tai; PI-TAI CHOU | Journal of Materials Chemistry | 24 | 23 | |
20 | 2008 | Phase separation inside the CdTe - CdSe type II quantum dots revealed by synchrotron X-ray diffraction and scattering | Sheu, H.-S.; Jeng, U.-S.; Shih, W.-J.; Lai, Y.-H.; Su, C.-H.; Lai, C.-W.; Yang, M.-J.; Chen, Y.-C.; Chou, P.-T.; PI-TAI CHOU | Journal of Physical Chemistry C | 9 | 9 | |
21 | 2008 | 2D self-bundled CdS nanorods with micrometer dimension in the absence of an external directing process | Kang, C.-C.; Lai, C.-W.; Peng, H.-C.; Shyue, J.-J.; Chou, P.-T.; PI-TAI CHOU | ACS Nano | 55 | 51 | |
22 | 2008 | Donor-Acceptor Interactions in Red-Emitting Thienylbenzene-Branched Dendrimers with Benzothiadiazole Core | Justin Thomas, K. R.; Huang, Tai-Hsiang; Lin, Jiann T.; Pu, Shin-Chien; Cheng, Yi-Ming; Hsieh, Cheng-chih; Chou, Pi Tai | Chemistry-A European Journal | 31 | 34 | |
23 | 2007 | New family of ruthenium-dye-sensitized nanocrystalline TiO2 solar cells with a high solar-energy-conversion efficiency | PI-TAI CHOU ; Chen, K.-S.; Liu, W.-H.; Wang, Y.-H.; Lai, C.-H.; Chou, P.-T.; Lee, G.-H.; Chen, K.; Chen, H.-Y.; Chi, Y.; Tung, F.-C. | Advanced Functional Materials | 70 | 66 | |
24 | 2006 | Orange and red organic light-emitting devices employing neutral Ru(II) emitters: Rational design and prospects for color tuning | Tung, Y.-L.; Chen, L.-S.; Chi, Y.; Chou, P.-T.; Cheng, Y.-M.; Li, E.Y.; Lee, G.-H.; Shu, C.-F.; Wu, F.-I.; Carty, A.J.; PI-TAI CHOU | Advanced Functional Materials | 129 | 122 | |
25 | 2005 | Organic light-emitting diodes based on charge-neutral Os(II) emitters: Generation of saturated red emission with very high external quantum efficiency | Tung, Y.-L.; Lee, S.-W.; Chi, Y.; Tao, Y.-T.; Chien, C.-H.; Cheng, Y.-M.; Chou, P.-T.; Peng, S.-M.; Liu, C.-S.; SHIE-MING PENG ; PI-TAI CHOU | Journal of Materials Chemistry | 136 | 127 | |
26 | 2004 | Spectroscopy and Femtosecond Dynamics of Type-II CdSe/ZnTe Core?Shell Semiconductor Synthesized via the CdO Precursor | Chen, Chun-Yen; Cheng, Chiu-Ting; Yu, Jen-Kan; Pu, Shih-Chieh; Cheng, Yi-Ming; Chou, Pi-Tai ; Chou, Yi-Hsuan; PI-TAI CHOU | The Journal of Physical Chemistry B | 92 | 89 |