第 1 到 29 筆結果,共 29 筆。
公開日期 | 題名 | 作者 | 關聯 | scopus | WOS | 全文 | |
---|---|---|---|---|---|---|---|
1 | 2022 | Noise reduction by upstream open reading frames | Wu, Ho-Wei; Fajiculay, Erickson; Wu, Jing-Fen; Yan, Ching-Cher Sanders; Hsu, Chao-Ping ; Wu, Shu-Hsing | Nature Plants 8(5), 474-480 | |||
2 | 2022 | Skin cells undergo asynthetic fission to expand body surfaces in zebrafish | Keat Ying Chan; Ching-Cher Sanders Yan; Hsiao-Yuh Roan; Shao-Chun Hsu; Tzu-Lun Tseng; Chung-Der Hsiao; Chao-Ping Hsu ; Chen-Hui Chen | Nature 605(7908), 119-125 | |||
3 | 2022 | BioSANS: A software package for symbolic and numeric biological simulation | Erickson Fajiculay; Chao-Ping Hsu | PLOS ONE 17(4), e0256409 | |||
4 | 2022 | Solvent Polarity-Modulated Molecular Alignment of Linear Diacetylenic Acid Films by Solution Shearing | Fang-Ju Lin; Yao-Jin Ke; Kai-Yuan Kuan; Chao-Ping Hsu ; Yu-Tai Tao | ACS Applied Polymer Materials 4(3), 1903-1910 | |||
5 | 2022 | Enhancing Singlet Fission Coupling with Nonbonding Orbitals | Aaditya Manjanath; Chou-Hsun Yang; Karl Kue; Chun-I Wang; Gil C. Claudio; Chao-Ping Hsu | Journal of Chemical Theory and Computation 18(2), 1017-1029 | |||
6 | 2022 | Reformulation of Thermally-Assisted-Occupation Density Functional Theory in the Kohn-Sham Framework | Shu-Hao Yeh; Weitao Yang; Chao-Ping Hsu | The Journal of Chemical Physics 156, 174108 | |||
7 | 2021 | Molecular and nano structures of chiral PEDOT derivatives influence the enantiorecognition of biomolecules. In silico analysis of chiral recognition | Jayakrishnan Aerathupalathu Janardhanan; Anusha Valaboju; Udesh Dhawan; Tharwat Hassan Mansoure; Ching-Cher Sanders Yan; Chou-Hsun Yang; Bhaskarchand Gautam; Chao-Ping Hsu ; Hsiao-hua Yu | The Analyst 146(23), 7118-7125 | |||
8 | 2021 | Excitons: Energetics and spatiotemporal dynamics | Seogjoo J. Jang; Irene Burghardt; Chao-Ping Hsu ; Christopher J. Bardeen | The Journal of Chemical Physics 155(20), 200401 | |||
9 | 2021 | Molecular Design of Ultrabright Semiconducting Polymer Dots with High NIR‐II Fluorescence for 3D Tumor Mapping | Li, Yi-Xuan; Su, Shih-Po; Yang, Chou-Hsun; Liu, Ming-Ho; Lo, Pin-Ho; Chen, Yi-Chen; Hsu, Chao-Ping ; Lee, Yi-Jang; Chiang, Huihua Kenny; Chan, Yang-Hsiang | Advanced Healthcare Materials 10(24), 2100993 | |||
10 | 2021 | Software for the frontiers of quantum chemistry: An overview of developments in the Q-Chem 5 package | Evgeny Epifanovsky; Andrew TB Gilbert; Xintian Feng; Joonho Lee; Yuezhi Mao; Narbe Mardirossian; Pavel Pokhilko; Alec F White; Marc P Coons; Adrian L Dempwolff; Zhengting Gan; Diptarka Hait; Paul R Horn; Leif D Jacobson; Ilya Kaliman; Jörg Kussmann; Adrian W Lange; Ka Un Lao; Daniel S Levine; Jie Liu; Simon C McKenzie; Adrian F Morrison; Kaushik D Nanda; Felix Plasser; Dirk R Rehn; Marta L Vidal; Zhi-Qiang You; Ying Zhu; Bushra Alam; Benjamin J Albrecht; Abdulrahman Aldossary; Ethan Alguire; Josefine H Andersen; Vishikh Athavale; Dennis Barton; Khadiza Begam; Andrew Behn; Nicole Bellonzi; Yves A Bernard; Eric J Berquist; Hugh GA Burton; Abel Carreras; Kevin Carter-Fenk; Romit Chakraborty; Alan D Chien; Kristina D Closser; Vale Cofer-Shabica; Saswata Dasgupta; Marc De Wergifosse; Jia Deng; Michael Diedenhofen; Hainam Do; Sebastian Ehlert; Po-Tung Fang; Shervin Fatehi; Qingguo Feng; Triet Friedhoff; James Gayvert; Qinghui Ge; Gergely Gidofalvi; Matthew Goldey; Joe Gomes; Cristina E González-Espinoza; Sahil Gulania; Anastasia O Gunina; Magnus WD Hanson-Heine; Phillip HP Harbach; Andreas Hauser; Michael F Herbst; Mario Hernández Vera; Manuel Hodecker; Zachary C Holden; Shannon Houck; Xunkun Huang; Kerwin Hui; Bang C Huynh; Maxim Ivanov; Ádám Jász; Hyunjun Ji; Hanjie Jiang; Benjamin Kaduk; Sven Kähler; Kirill Khistyaev; Jaehoon Kim; Gergely Kis; Phil Klunzinger; Zsuzsanna Koczor-Benda; Joong Hoon Koh; Dimitri Kosenkov; Laura Koulias; Tim Kowalczyk; Caroline M Krauter; Karl Kue; Alexander Kunitsa; Thomas Kus; István Ladjánszki; Arie Landau; Keith V Lawler; Daniel Lefrancois; Susi Lehtola; Run R Li; Yi-Pei Li; Jiashu Liang; Marcus Liebenthal; Hung-Hsuan Lin; You-Sheng Lin; Fenglai Liu; Kuan-Yu Liu; Matthias Loipersberger; Arne Luenser; Aaditya Manjanath; Prashant Manohar; Erum Mansoor; Sam F Manzer; Shan-Ping Mao; Aleksandr V Marenich; Thomas Markovich; Stephen Mason; Simon A Maurer; Peter F McLaughlin; Maximilian FSJ Menger; Jan-Michael Mewes; Stefanie A Mewes; Pierpaolo Morgante; J Wayne Mullinax; Katherine J Oosterbaan; Garrette Paran; Alexander C Paul; Suranjan K Paul; Fabijan Pavošević; Zheng Pei; Stefan Prager; Emil I Proynov; Ádám Rák; Eloy Ramos-Cordoba; Bhaskar Rana; Alan E Rask; Adam Rettig; Ryan M Richard; Fazle Rob; Elliot Rossomme; Tarek Scheele; Maximilian Scheurer; Matthias Schneider; Nickolai Sergueev; Shaama M Sharada; Wojciech Skomorowski; David W Small; Christopher J Stein; Yu-Chuan Su; Eric J. Sundstrom; Zhen Tao; Jonathan Thirman; Gábor J. Tornai; Takashi Tsuchimochi; Norm M. Tubman; Srimukh Prasad Veccham; Oleg Vydrov; Jan Wenzel; Jon Witte; Atsushi Yamada; Kun Yao; Sina Yeganeh; Shane R. Yost; Alexander Zech; Igor Ying Zhang; Xing Zhang; Yu Zhang; Dmitry Zuev; Alán Aspuru-Guzik; Alexis T. Bell; Nicholas A. Besley; Ksenia B. Bravaya; Bernard R. Brooks; David Casanova; Jeng-Da Chai; Sonia Coriani; Christopher J. Cramer; György Cserey; A. Eugene DePrince III; Robert A. DiStasio Jr.; Andreas Dreuw; Barry D. Dunietz; Thomas R. Furlani; William A. Goddard III; Sharon Hammes-Schiffer; Teresa Head-Gordon; Warren J. Hehre; Chao-Ping Hsu ; Thomas-C. Jagau; Yousung Jung; Andreas Klamt; Jing Kong; Daniel S. Lambrecht; WanZhen Liang; Nicholas J. Mayhall; C. William McCurdy; Jeffrey B. Neaton; Christian Ochsenfeld; John A. Parkhill; Roberto Peverati; Vitaly A. Rassolov; Yihan Shao; Lyudmila V. Slipchenko; Tim Stauch; Ryan P. Steele; Joseph E. Subotnik; Alex J. W. Thom; Alexandre Tkatchenko; Donald G. Truhlar; Troy Van Voorhis; Tomasz A. Wesolowski; K. Birgitta Whaley; H. Lee Woodcock III; Paul M. Zimmerman; Shirin Faraji; Peter M. W. Gill; Martin Head-Gordon; John M. Herbert; Anna I. Krylov | The Journal of Chemical Physics 155, 084801 | |||
11 | 2021 | Low-Cost Hole-Transporting Materials Based on Carbohelicene for High-Performance Perovskite Solar Cells | Yeo-Sin Lin; Seid Yimer Abate; Chun-I Wang; Yuh-Sheng Wen; Chih-I Chen; Chao-Ping Hsu ; Chu-Chen Chueh; Yu-Tai Tao ; Shih-Sheng Sun | ACS Applied Materials & Interfaces 13(17), 20051-20059 | |||
12 | 2021 | Construction of intracellular asymmetry and asymmetric division in Escherichia coli | Da-Wei Lin; Yang Liu; Yue-Qi Lee; Po-Jiun Yang; Chia-Tse Ho; Jui-Chung Hong; Jye-Chian Hsiao; Der-Chien Liao; An-Jou Liang; Tzu-Chiao Hung; Yu-Chuan Chen; Hsiung-Lin Tu; Chao-Ping Hsu ; Hsiao-Chun Huang | Nature Communications 12, 888 | |||
13 | 2021 | Extrinsic Factors Regulating Dendritic Patterning | Lin, Tzu-Yang ; Chen, Pei-Ju; Yu, Hung-Hsiang ; Hsu, Chao-Ping ; Lee, Chi-Hon | Frontiers in Cellular Neuroscience 14, 622808 | |||
14 | 2020 | Artificial neural networks for predicting charge transfer coupling | Chun-I Wang; Ignasius Joanito; Chang-Feng Lan; Chao-Ping Hsu | The Journal of Chemical Physics 153(21), 214113 | |||
15 | 2020 | Basal leakage in oscillation: Coupled transcriptional and translational control using feed-forward loops | Ignasius, J; Yan, CC, S; Chu, JW; Wu, SH ; Hsu, CP | PLOS Computational Biology 16(9), e1007740 | |||
16 | 2020 | Excitation energies from thermally assisted-occupation density functional theory: Theory and computational implementation | Shu-Hao Yeh; Aaditya Manjanath; Yuan-Chung Cheng; Jeng-Da Chai; Chao-Ping Hsu | The Journal of Chemical Physics 153(8), 084120 | |||
17 | 2020 | Tuning the electronic and magnetic properties of pentagraphene through the C1 vacancy | Aaditya Manjanath; Chao-Ping Hsu ; Yoshiyuki Kawazoe | 2D Materials 7(4), 045024 | |||
18 | 2020 | Reorganization Energies and Spectral Densities for Electron Transfer Problems in Charge Transporting Materials | Chao-Ping Hsu | Physical Chemistry Chemical Physics 22, 21630-21641 | |||
19 | 2020 | Chapter Eight - The anisotropy and temperature dependence in the mobility of rubrene | Yu-Jie Zhong; Chang-Feng Lan; Bo-Chao Lin; Chong-Der Hu; Yuan-Chung Cheng; Chao-Ping Hsu | Advances in Quantum Chemistry 81, 219-241 | |||
20 | 2020 | Construction of Two-Dimensional Potential Energy Surfaces of Reactions with Post-Transition State Bifurcations | Hsiao-Han Chuang; Dean J Tantillo; Chao-Ping Hsu | Journal of Chemical Theory and Computation 16(7), 4050-4060 | |||
21 | 2020 | Antagonistic regulation by insulin-like peptide and activin ensures the elaboration of appropriate dendritic field sizes of amacrine neurons. | Luo, J; Ting, CY; Li, Y; McQueen, P; Lin, TY ; Hsu, CP ; Lee, CH | eLife 9, e50568 | |||
22 | 2019 | Establishment of Guidelines for the Control of Glycosylation Reactions and Intermediates by Quantitative Assessment of Reactivity | Chun‐Wei Chang; Chia‐Hui Wu; Mei‐Huei Lin; Pin‐Hsuan Liao; Chun‐Chi Chang; Hsiao‐Han Chuang; Su‐Ching Lin; Sarah Lam; Ved Prakash Verma; Chao‐Ping Hsu ; Cheng‐Chung Wang | ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 58(47), 16775-16779 | |||
23 | 2019 | Machine Learning for Predicting Electron Transfer Coupling | Chun-I Wang; Mac Kevin E Braza; Gil C Claudio; Ricky B Nellas; Chao-Ping Hsu | The Journal of Physical Chemistry A 123(36), 7792-7802 | |||
24 | 2019 | First Principle Prediction of Intramolecular Singlet Fission and Triplet Triplet Annihilation Rates | Hung-Hsuan Lin; Karl Y Kue; Gil C Claudio; Chao-Ping Hsu | JOURNAL OF CHEMICAL THEORY AND COMPUTATION 15(4), 2246-2253 | |||
25 | 2019 | C1 vacancy in pentagraphene | Aaditya Manjanath; Chao-Ping Hsu ; Yoshiyuki Kawazoe | ||||
26 | 2019 | Single-electron excitations from thermally-assisted-occupation reference | Shu-Hao Yeh; Aaditya Manjanath; Jeng-Da Chai; Chao-Ping Hsu | ||||
27 | 2019 | Molecular Design of Near-Infrared Fluorescent Pdots for Tumor Targeting: Aggregation-Induced Emission versus Anti-Aggregation-Caused Quenching | Wei-Kai Tsai; Chun-I. Wang; Chia-Hsien Liao; Chun-Nien Yao; Tsai-Jhen Kuo; Ming-Ho Liu; Chao-Ping Hsu ; Shu-Yi Lin; Chang-Yi Wu; Joseph R. Pyle; Jixin Chen; Yang-Hsiang Chan | Chemical Science 10(1), 198-207 | |||
28 | 2018 | The 3 D Structure of Twisted Benzo[ghi]perylene-Triimide Dimer as a Non-Fullerene Acceptor for Inverted Perovskite Solar Cells | Priyadharsini Karuppuswamy; Hung-Cheng Chen; Pen-Cheng Wang; Chao-Ping Hsu ; Ken-Tsung Wong; Chih Wei Chu | ChemSusChem 11(2), 415-423 | |||
29 | 2007 | An analytical rate expression for the kinetics of gene transcription mediated by dimeric transcription factors | Yang, H. T.; Hsu, C. P. ; Hwang, M. J. | The Journal of Biochemistry 142(2), 135-144 |