Hong Li

Senior Research Scientist


CN

Office: MS&E 4202

Phone: 404-385-8182

E-Mail: hong.li@chemistry.gatech.edu

Publications in the Brédas Group:

  • Orientation of Phenylphosphonic Acid Self-Assembled Monolayers on a Transparent Conductive Oxide: A Combined NEXAFS, PM-IRRAS and DFT Study, Gliboff, M; Sang, L; Knesting, KM; Schalnat, MC; Mudalige, A; Ratcliff, EL; Li, H; Sigdel, AK; Giordano, AJ; Berry, JJ; Nordlund, D; Seidler, GT; Bredas, JL; Marder, SR; Pemberton, JE; Ginger, DS, Langmuir, 29, 2166-2174 [2013]
  • Synthesis, Experimental and Theoretical Characterization, and Field-Effect Transistor Properties of A New Class of Dibenzothiophene Derivatives: From Linear to Cyclic Architectures, Qiao, Y; Wei, Z; Risko, C; Li, H.; Bredas, JL; Xu, W; Zhu, D, Journal Of Materials Chemistry, 22, 1313-1325 [2012]
  • A Universal Method to Produce Low-Work Function Electrodes for Organic Electronics, Zhou, Y; Fuentes-Hernandez, C; Shim, J; Meyer, J; Giordano, AJ; Li, H; Winget, P; Papadopoulos, T; Cheun, H; Kim, J; Fenoll, M; Dindar, A; Haske, W; Najafabadi, E; Khan, TM; Sojoudi, H; Barlow, S; Graham, S; Bredas, JL; Marder, SR; Kahn, A; Kippelen, B, Science, 336, 327-332 [2012]
  • Silver-Decorated Cylindrical Nanopores: Combining the Third Dimension with Chemical Enhancement for Efficient Trace Chemical Detection with SERS, Kodiyath, R; Papadopoulos, TA; Wang, J; Combs, ZA; Li, H; Brown, RJC; Bredas, JL; Tsukruk, VV, Journal Of Physical Chemistry, 116, 13917-13927 [2012]
  • Binding Modes of Fluorinated Benzylphosphonic Acids on the Polar ZnO Surface and Impact on Work Function, Wood, C; Li, H; Winget, P; Bredas, JL, Journal Of Physical Chemistry C, 116, 19125-19133 [2012]
  • A Universal Method to Produce Low-Work Function Electrodes for Organic Electronics, Zhou, YH; Fuentes-Hernandez, C; Shim, J; Meyer, J; Giordano, AJ; Li, H; Winget, P; Papadopoulos, T; Cheun, H; Kim, J; Fenoll, M; Dindar, A; Haske, W; Najafabadi, E; Khan, TM; Sojoudi, H; Barlow, S; Graham, S; Bredas, JL; Marder, SR, Kahn, Kippelen, B, Science, 336, 327-332 [2012]
  • Zinc Oxide as a Model Transport Conducting Oxide: A Theoretical and Experimental Study of the Impact of Hydroxylation, Vacancies, Interstitials, and Extrinsic Doping on the Electronic Properties of the Polar ZnO (0002) Surface, Li, H; Schirra, LK; Shim, J; Cheun, J; Cheun, H; Kippelen, B; Monti, OLA; Bredas, JL, Chemistry Of Materials, 24, 3044-3055 [2012]
  • Surface Modification of Indium-Tin-Oxide Via Self-Assembly of a Donor-Acceptor Complex: A Density Functional Theory Study, Li, H; Winget, P; Bredas, JL, Advanced Materials, in press, [2011]
  • Theoretical Study of the Surface Modification of Indium Tin Oxide with Trifluorophenyl Phosphonic Acid Molecules: Impact of Coverage Density and Binding Geometry, Li, H; Paramonov, P; Bredas, JL, Journal Of Materials Chemistry, 20, 2630-2637 [2010]
  • Modification Of The Surface Properties Of Indium Tin Oxide With Benzylphosphonic Acids: A Joint Experimental And Theoretical Study, Hotchkiss, PJ; Li, H; Paramonov, PB; Paniagua, SA; Jones, SC; Armstrong, NR; Brédas, JL; Marder, SR, Advanced Materials, 21, 4496-4501 [2009]
  • Electronic Structure Of The Pentacene-Gold Interface: A Density Functional Theory Study, Li, H; Duan, Y; Coropceanu, V; Brédas, JL, Organic Electronics, 10, 1571-1578 [2009]
  • Analysis Of Charge Transport Pathways In Disordered Organic Conductors, Wenzel, W; Kwiatkowski, JJ; Nelson, J; Li, H; Brédas, JL; Lennartz, C, SPIE – The International Society for Optical Engineering, 6999, 699918/1-699918/13 [2008]