許良彥
電子郵件 lyhsu@gate.sinica.edu.tw
辦公室 R362
辦公室電話 +886-2-2362-4962
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學歷
經歷
研究興趣
榮譽及獎項
代表作
  1. Chuang, Y.-T.; Hsu, L.-Y.*; Microscopic Theory of Exciton–Polariton Model Involving Multiple Molecules: Macroscopic Quantum Electrodynamics Formulation and Essence of Direct Intermolecular Interactions, J. Chem. Phys., 2024, 160, 114105. (Special Issue: “Light-matter Interaction at the Nano and Molecular Scale”)
  2. Chuang, Y.-T.; Hsu, L.-Y.*; Quantum Dynamics of Molecular Ensembles Coupled with Quantum Light: Counter-rotating Interactions as an Essential Component, Phys. Rev. A, 2024, 109, 013717.
  3. Hang, C.-C.; Hsu, L.-Y.*; Many-Body Coherence in Quantum Transport, Phys. Rev. B, 2023, 108, 125422.
  4. Tsai, H.-S.; Shen, C.-E.; Hsu, S.-H.; Hsu, L.-Y.*; Effects of Non-Adiabatic Electromagnetic Vacuum Fluctuations on Internal Conversion, J. Phys. Chem. Lett., 2023, 14, 5924-5931.
  5. Lee, M.-W.; Hsu, L.-Y.*; Polariton-Assisted Resonance Energy Transfer beyond Resonant Dipole-Dipole Interaction: A Transition-Current-Density Approach, Phys. Rev. A, 2023, 107, 053709.
  6. Wei, Y.-C.; Hsu, L.-Y.*; Polaritonic Huang–Rhys Factor: Basic Concepts and Quantifying Light–Matter Interactions in Media, J. Phys. Chem. Lett., 2023, 14, 2395-2401.
  7. Wang, S.; Chuang, Y.-T.; Hsu, L.-Y.*; Macroscopic Quantum Electrodynamics Approach to Multichromophoric Excitation Energy Transfer. I. Formalism, J. Chem. Phys., 2022, 157, 184107. (Special Issue: “2022 JCP Emerging Investigators Special Collection)
  8. Wei, Y.-C.; Hsu, L.-Y.*; Cavity-Free Quantum-Electrodynamic Electron Transfer Reactions, J. Phys. Chem. Lett., 2022, 13, 9695-9702.
  9. Wang, S.; Chuang, Y.-T.; Hsu, L.-Y.*; Simple but Accurate Estimation of Light-Matter Coupling Strength and Optical Loss for a Molecular Emitter Coupled with Photonic Modes, J. Chem. Phys., 2021, 155, 134117. (Special Issue: “Advances in Modeling Plasmonic Systems”)
  10. Wei, Y.-C.; Lee, M.-W.; Chou, P.-T.; Scholes. G. D.; Schatz, G. C.; Hsu, L.-Y.*; Can Nanocavities Significantly Enhance Resonance Energy Transfer in a Single Donor–Acceptor Pair? J. Phys. Chem. C, 2021, 125, 18119-18128. (Invited ArticleSpecial Issue: “125 Years of The Journal of Physical Chemistry”)
  11. Lee, M.-W.; Chuang, Y.-T.; Hsu, L.-Y.*; Theory of Molecular Emission Power Spectra. II. Angle, Frequency, and Distance Dependence of Electromagnetic Environment Factor of a Molecular Emitter in Plasmonic Environments, J. Chem. Phys., 2021, 155, 074101. (Special Issue: “2021 JCP Emerging Investigators Special Collection”)
  12. Hsu, L.-Y.*; Yen, H.-C.; Lee, M.-W.; Sheu, Y.-L.; Chen, P.-C.; Dai, H*; Chen, C.-C.*; Large-Scale Inhomogeneous Fluorescence Plasmonic Silver Chips: Origin and Mechanism, Chem (Cell), 2020, 6, 3396-3408.
  13. Wang, S; Lee, M.-W.; Chuang, Y.-T.; Scholes, G. D.*; Hsu, L.-Y.*; Theory of Molecular Emission Power Spectra. I. Macroscopic Quantum Electrodynamics Formalism." J. Chem. Phys., 2020, 153, 184102. (Invited ArticleSpecial Issue: “Excitons: Energetics and Spatio-temporal Dynamics”)
  14. Lee, M.-W.; Hsu, L.-Y.*; Controllable Frequency Dependence of Resonance Energy Transfer Coupled with Localized Surface Plasmon Polaritons, J. Phys. Chem. Lett., 2020, 11, 6796-6804.
  15. Wang, S; Scholes, G. D.*; Hsu, L.-Y.*; Coherent-to-Incoherent Transition of Molecular Fluorescence Controlled by Surface Plasmon Polaritons, J. Phys. Chem. Lett., 2020, 11, 5948-5855. (Virtual Issue: "Polaritons in Physical Chemistry")
  16. Chiang, T.-M.; Hsu, L.-Y.*; Quantum Transport with Electronic Relaxation in Electrodes: Landauer-Type Formulas Derived from the Driven Liouville-von Neumann Approach, J. Chem. Phys., 2020, 153, 044103. (Special Issue: “2020 JCP Emerging Investigators Special Collection”)
  17. Wang. S; Scholes. G. D.*; Hsu, L.-Y.*; Quantum Dynamics of a Molecular Emitter Strongly Coupled with Surface Plasmon Polaritons: A Macroscopic Quantum Electrodynamics Approach, J. Chem. Phys., 2019, 151, 014105.  (Editor’s Pick, Editor's Choice in 2019, Invited Article, Special Issue: "Dynamics of Open Quantum Systems")
  18. Wu, J.-S.; Lin, Y.-C.; Sheu, Y.-L.; Hsu, L.-Y.*, Characteristic Distance of Resonance Energy Transfer Coupled with Surface Plasmon Polaritons,  J. Phys. Chem. Lett., 2018, 9, 7032-7039.
  19. Fu, B;  Mosquera, M. A.; Schatz, G. C., Ratner M. A.; Hsu, L.-Y.*; Photoinduced Anomalous Coulomb Blockade and the Role of Triplet States in Electron Transport through an Irradiated Molecular Transistor, Nano Lett., 2018, 18, 5015-5023.
  20. Hsu, L.-Y.; Ding, W. D.; Schatz, G. C.*; Plasmon-Coupled Resonance Energy Transfer, J. Phys. Chem. Lett., 2017, 8, 2357-2367. (Chosen as a Cover Article).
  21. Sheu, Y.-L.; Wu, H.-T.*; Hsu, L.-Y.*; Exploring Laser-Driven Quantum Phenomena from a Time-Frequency Analysis Perspective: A Comprehensive Study, Opt. Express, 2015, 23, 30459-30482.
  22. Ting, T.-C.; Hsu, L.-Y.; Huang, M.-J.; Homg, E.-C.; Lu, H.-C.; Hsu, C.-H.; Jiang, C.-H.; Jin, B.-Y.*; Peng, S.-M.*; Chen, C.-H.*; Mechanisms and Characteristics of Energy-Level Alignment for Single-Molecule Conductance, Angew. Chem. Int. Ed., 2015, 54, 15734-15738. (Chosen as a very important paper).
  23. Liao, K.-C.; Hsu, L.-Y.; Bowers, C. M.; Rabitz, H*; Whitesides, G. M.*, Molecular Series-Tunneling Junctions, J. Am. Chem. Soc., 2015, 137, 5948-5954.
  24. Huang, M.-J.; Hsu, L.-Y.; Fu, M.-D.; Chuang, S.-T.; Tien, F.-W.; Chen, C.-H*, Conductance of Tailored Molecular Segments: a Rudimentary Assessment by Landauer Formulation, J. Am. Chem. Soc., 2014, 136, 1832-1841.
  25. Hsu, L.-Y.*; Wu, N.; Rabitz, H*, Gate Control of the Conduction Mechanism Transition from Tunneling to Thermally Activated Hopping, J. Phys. Chem. Lett., 2014, 5, 1831-183.
  26. Hsu, L.-Y.*; Li, E. Y.*; Rabitz, H.*, Single-Molecule Electric Revolving Door, Nano Lett., 2013, 13, 5020-5025.
  27. Hsu, L.-Y.; Rabitz, H.*, Single-Molecule Phenyl-Acetylene-Macrocycle-Based Optoelectronic Switch Functioning as a Quantum-Interference-Effect Transistor, Phys. Rev. Lett., 2012, 109, 186801.