Colloidal dispersion of gold nanorods: Historical background, optical properties, seed-mediated synthesis, shape separation and self-assembly V Sharma, K Park, M Srinivasarao Materials Science and Engineering: R: Reports 65 (1-3), 1-38, 2009 | 474 | 2009 |
Mechanism for Liquid Phase Exfoliation of MoS2 A Jawaid, D Nepal, K Park, M Jespersen, A Qualley, P Mirau, LF Drummy, ... Chemistry of Materials 28 (1), 337-348, 2016 | 437 | 2016 |
Depletion-induced shape and size selection of gold nanoparticles K Park, H Koerner, RA Vaia Nano letters 10 (4), 1433-1439, 2010 | 296 | 2010 |
Shape separation of gold nanorods using centrifugation V Sharma, K Park, M Srinivasarao Proceedings of the National Academy of Sciences 106 (13), 4981-4985, 2009 | 256 | 2009 |
Growth mechanism of gold nanorods K Park, LF Drummy, RC Wadams, H Koerner, D Nepal, L Fabris, RA Vaia Chemistry of Materials 25 (4), 555-563, 2013 | 251 | 2013 |
Does shape matter? Bioeffects of gold nanomaterials in a human skin cell model NM Schaeublin, LK Braydich-Stolle, EI Maurer, K Park, RI MacCuspie, ... Langmuir 28 (6), 3248-3258, 2012 | 148 | 2012 |
Control over position, orientation, and spacing of arrays of gold nanorods using chemically nanopatterned surfaces and tailored particle–particle–surface interactions D Nepal, MS Onses, K Park, M Jespersen, CJ Thode, PF Nealey, RA Vaia ACS nano 6 (6), 5693-5701, 2012 | 147 | 2012 |
Low‐temperature solution‐processed molybdenum oxide nanoparticle hole transport layers for organic photovoltaic devices YJ Lee, J Yi, GF Gao, H Koerner, K Park, J Wang, K Luo, RA Vaia, ... Advanced Energy Materials 2 (10), 1193-1197, 2012 | 114 | 2012 |
Large scale solution assembly of quantum dot–gold nanorod architectures with plasmon enhanced fluorescence D Nepal, LF Drummy, S Biswas, K Park, RA Vaia Acs Nano 7 (10), 9064-9074, 2013 | 112 | 2013 |
Plasmon-induced transparency in the visible region via self-assembled gold nanorod heterodimers S Biswas, J Duan, D Nepal, K Park, R Pachter, RA Vaia Nano letters 13 (12), 6287-6291, 2013 | 102 | 2013 |
Engineering the optical properties of gold nanorods: independent tuning of surface plasmon energy, extinction coefficient, and scattering cross section K Park, S Biswas, S Kanel, D Nepal, RA Vaia The Journal of Physical Chemistry C 118 (11), 5918-5926, 2014 | 100 | 2014 |
Synthesis of complex Au/Ag nanorods by controlled overgrowth K Park, RA Vaia Advanced Materials 20 (20), 3882-3886, 2008 | 97 | 2008 |
In situ UV/Vis, SAXS, and TEM study of single-phase gold nanoparticle growth H Koerner, RI MacCuspie, K Park, RA Vaia Chemistry of Materials 24 (6), 981-995, 2012 | 84 | 2012 |
Ag shell morphology on Au nanorod core: role of Ag precursor complex K Park, LF Drummy, RA Vaia Journal of Materials Chemistry 21 (39), 15608-15618, 2011 | 78 | 2011 |
High‐Yield Assembly of Soluble and Stable Gold Nanorod Pairs for High‐Temperature Plasmonics D Nepal, K Park, RA Vaia Small 8 (7), 1013-1020, 2012 | 72 | 2012 |
Highly concentrated seed-mediated synthesis of monodispersed gold nanorods K Park, M Hsiao, YJ Yi, S Izor, H Koerner, A Jawaid, RA Vaia ACS applied materials & interfaces 9 (31), 26363-26371, 2017 | 67 | 2017 |
Optical properties of rodlike metallic nanostructures: insight from theory and experiment J Duan, K Park, RI MacCuspie, RA Vaia, R Pachter The Journal of Physical Chemistry C 113 (35), 15524-15532, 2009 | 64 | 2009 |
Dynamic plasmonic pixels NJ Greybush, K Charipar, JA Geldmeier, SJ Bauman, P Johns, J Naciri, ... ACS nano 13 (4), 3875-3883, 2019 | 58 | 2019 |
Time-dependent susceptibility of the growth of gold nanorods to the addition of a cosurfactant RC Wadams, L Fabris, RA Vaia, K Park Chemistry of Materials 25 (23), 4772-4780, 2013 | 48 | 2013 |
Plasmon dephasing in gold nanorods studied using single-nanoparticle interferometric nonlinear optical microscopy T Zhao, JW Jarrett, JS Johnson, K Park, RA Vaia, KL Knappenberger Jr The Journal of Physical Chemistry C 120 (7), 4071-4079, 2016 | 45 | 2016 |