公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2011 | Absolute entropy and energy of carbon dioxide using the two-phase thermodynamic model | Huang, S.-N.; Pascal, T.A.; Goddard, W.A.; Maiti, P.K.; Lin, S.-T.; SHIANG-TAI LIN | Journal of Chemical Theory and Computation | | | |
2020 | Accurate Prediction of Vertical Emission from Excited-State Tuning of Range-Separated Density Functional Theory | Vikramaditya, T.; Lin, S.-T.; SHIANG-TAI LIN | Journal of Physical Chemistry C | | 6 | |
2013 | Application of COSMO-SAC and Molecular Simulation to An Industrially Important Pentenary System | C.-M. Hsieh; T. Merker; S.-T. Lin ; H. Hasse,; J. Vrabec | | | | |
2006 | Application of the COSMO-SAC-BP Solvation Model to Predictions of Normal Boiling Temperatures for Environmentally Significant Substances | Wang, Shu; Lin, Shiang-Tai ; Chang, Jaeeon; Goddard III, William A.; Sandler, Stanley I. | Industrial & Engineering Chemistry Research | 33 | 31 | |
2017 | Artificial Intelligence for Molecular Design | S.-T. Lin | | | | |
2017 | Assessing the role of Hartree-Fock exchange, correlation energy and long range corrections in evaluating ionization potential, and electron affinity in density functional theory | Vikramaditya, T.; Lin, S.-T.; SHIANG-TAI LIN | Journal of Computational Chemistry | | | |
2015 | Assessment of density functional methods for exciton binding energies and related optoelectronic properties | JENG-DA CHAI ; Lin S.-T. | Rsc Advances | 46 | 39 | |
2017 | Atom-Based Computer-Aided Molecular Design with Genetic Algorithm and Simulated Annealing Algorithm | H.-H. Hsu; C.-H. Huang; S.-T. Lin | | | | |
2013 | Band Gap Engineering on Conjugated Polymers for High Efficiency Organic Solar Cells | Y.-C. Hung; S.-T. Lin | | | | |
2013 | Band gap engineering via controlling donor-acceptor compositions in conjugated copolymers | Hung, Ying Chieh; CHI-YANG CHAO ; CHI-AN DAI ; WEI-FANG SU ; SHIANG-TAI LIN | Journal of Physical Chemistry B | 10 | 9 | |
2011 | Band structure engineering for low band gap polymers based on 3-hexylthiophene and thienopyrazine | CHI-YANG CHAO ; Chao, Chung Hsiang; Chen, Lung Pin; Hung, Ying Chieh; SHIANG-TAI LIN ; WEI-FANG SU | ACS National Meeting Book of Abstracts | 0 | 0 | |
2011 | Band structure engineering for low band gap polymers based on 3-hexylthiophene and thienopyrazine | Chao, C.-Y.; Chao, C.-H.; Chen, L.-P.; Hung, Y.-C.; Lin, S.-T.; Su, W.-F.; SHIANG-TAI LIN | ACS National Meeting Book of Abstracts | | | |
2012 | Band structure engineering for low band gap polymers containing thienopyrazine | Chao, C.-Y.; Chao, C.-H.; Chen, L.-P.; Hung, Y.-C.; Lin, S.-T.; Su, W.-F.; Lin, C.-F.; SHIANG-TAI LIN ; CHI-YANG CHAO ; CHING-FUH LIN ; WEI-FANG SU | Journal of Materials Chemistry | | | |
2020 | A Benchmark Open-Source Implementation of COSMO-SAC | Bell, I.H.; Mickoleit, E.; Hsieh, C.-M.; Lin, S.-T.; Vrabec, J.; Breitkopf, C.; J?ger, A.; SHIANG-TAI LIN | Journal of Chemical Theory and Computation | 71 | 59 | |
2000 | Blind-hole residual stress determination using optical interferometry | Lin, S. T.; SHIANG-TAI LIN | Experimental Mechanics | | 8 | |
2001 | Bonding characterization and nano-indentation study of the amorphous SiCxNy films with and without hydrogen incorporation | Lo, H. C.; Wu, J. J.; Wen, C. Y.; Wong, T. S.; Lin, S. T.; Chen, K. H.; SHIANG-TAI LIN ; LI-CHYONG CHEN | Diamond and Related Materials | 15 | 15 | |
2002 | Bonding characterization, density measurement, and thermal diffusivity studies of amorphous silicon carbon nitride and boron carbon nitride thin films | Chattopadhyay, S.; Chen, L. C.; Chien, S. C.; Lin, S. T.; Chen, K. H.; SHIANG-TAI LIN | Journal of Applied Physics | | 17 | |
2014 | Calculation of Thermodynamic Properties of Structure I Methane Hydrate from Molecular Dynamics Simulations | K.-Y. Yeh; S.-T. Lin ; L.-J. Chen | | | | |
2024 | Can local composition models combined with global renormalization group theory describe the phase transitions in ferromagnetic materials? | Shih, Yen Jen; SHIANG-TAI LIN | Fluid Phase Equilibria | 0 | | |
2015 | Can Molecular Dynamics Simulations Provide a Quantitative Description for the Rate of Methane Hydrate Dissociation? | H. Lo; S.-T. Lin | | | | |