公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2012 | Self-interaction correction to GW approximation | Chang, Y.-W.; BIH-YAW JIN ; YAO-WEN CHANG | Physica Scripta | 4 | 4 | |
2002 | Self-organization of triple-stranded carbon nanoropes | Su C.-J; Hwang D.W; Lin S.-H; BIH-YAW JIN ; Hwang L.-P. | PhysChemComm | 22 | 21 | |
2014 | Significant evidence of C⋯O and C⋯C long-range contacts in several heterodimeric complexes of CO with CH3–X, should one refer to them as carbon and dicarbon bonds! | Pradeep R. Varadwaj; Arpita Varadwaj; BIH-YAW JIN | Physical Chemistry Chemical Physics | 58 | 52 | |
2017 | Skeletal model of hexagonal close packing lattice structures & Skeletal model of cubic close packing lattice structures | BIH-YAW JIN | 2018 joint mathematics meetings, Mathematical Art Galleries | | | |
2010 | Smallest electrical wire based on extended metal-atom chains | Tsai, T.-W.; Huang, Q.-R.; SHIE-MING PENG ; BIH-YAW JIN | Journal of Physical Chemistry C | 51 | 49 | |
2000 | Solvolysis of N,N-diphenylcarbamoyl chloride revisited. Extended positive charge delocalization on phenyl rings in the transition state and possible contribution of non-canonical resonance structure | Liu, Kwang-Ting; Chen, Hung-I; Lin, Yen-Shyi; Jin, Bih-Yaw | Journal of Physical Organic Chemistry | 7 | 9 | |
2000 | Solvolysis ofN,N-diphenylcarbamoyl chloride revisited. Extended positive charge delocalization on phenyl rings in the transition state and possible contribution of non-canonical resonance structure | Kwang-Ting Liu; Hung-I Chen; Yen-Shyi Lin; BIH-YAW JIN | Journal of Physical Organic Chemistry | 0 | | |
2013 | Super Buckyball of Genus 31 | BIH-YAW JIN | 2013 Joint Mathematics Meetings | | | |
2019 | The synthesis and magnetic properties of a linear mixed-valence [Ni3]5+ in an anthyridine tri-nickel complex | Hsieh, C.-L.; Liu, T.-J.; Song, Y.; Lee, G.-H.; BIH-YAW JIN ; Lin, T.-S.; SHIE-MING PENG | Dalton Transactions | 6 | 3 | |
2002 | Synthesis and photophysical studies of siloxane-tethered cyclophanes | Sundarraj Sudhakar; Jui-Hung Hsu; Yi-Hung Liu; Yu Wang; Ding-Shyue Yang; BIH-YAW JIN ; Tien-Yau Luh | Silicon Chemistry | 0 | 0 | |
1997 | Synthesis and Photophysical Studies of Silylene-Spaced Divinylarene Copolymers. Molecular Weight Dependent Fluorescence of Alternating Silylene−Divinylbenzene Copolymers | Ruey-Min Chen; Kuo-Ming Chien; Ken-Tsung Wong; Bih-Yaw Jin; Tien-Yau Luh; Jui-Hung Hsu; Wunshain Fann; TIEN-YAU LUH ; BIH-YAW JIN ; KEN-TSUNG WONG | Journal of the American Chemical Society | 96 | 93 | |
2009 | Systematics of High-Genus Fullerenes | Chuang, Chern; Jin, Bih-Yaw | Journal of Chemical Information and Modeling | 8 | 8 | |
2011 | Systematics of Toroidal, Helically-Coiled Carbon Nanotubes, High-genus Fullernens, and Other Exotic Graphitic Materials | BIH-YAW JIN | Procedia Engineering | 16 | 0 | |
2014 | Theory of charge transport in molecular junctions: From Coulomb blockade to coherent tunneling | Chang, Y.-W.; BIH-YAW JIN ; YAO-WEN CHANG | Journal of Chemical Physics | 4 | 4 | |
2017 | Theory of charge transport in molecular junctions: Role of electron correlation | Chang, Y.-W.; BIH-YAW JIN ; YAO-WEN CHANG | Journal of Chemical Physics | 2 | 2 | |
1995 | Theory of resonance Raman scattering for finite and infinite polyenes | BIH-YAW JIN ; Robert Silbey | The Journal of Chemical Physics | 7 | 7 | |
2008 | Three-Dimensional Through-Space/Through-Bond Delocalization in Cyclophane Systems: A Molecule-in-Molecule Approach | Lin, Hsin-Chieh; Jin, Bih-Yaw | Journal of Physical Chemistry A | | | |
2008 | Three-Dimensional Through-Space/Through-Bond Delocalization in Cyclophane Systems: A Molecule-in-Molecule Approach | Hsin-Chieh Lin; BIH-YAW JIN | The Journal of Physical Chemistry A | 10 | 10 | |
2014 | Torus Knots with Polygonal Faces | BIH-YAW JIN | 2014: Mathematics, Music, Art, Architecture, Culture | | | |
2010 | Transport through a mixed-valence molecular transistor in the sequential-tunneling regime: Theoretical insight from the two-site Peierls–Hubbard model | Hsu, Liang-Yan; Tsai, Te-Wei; BIH-YAW JIN | The Journal of Chemical Physics | 14 | 13 | |