| Highly efficient molecular delivery into mammalian cells using carbon nanotube spearing D Cai, JM Mataraza, ZH Qin, Z Huang, J Huang, TC Chiles, D Carnahan, ... Nature Methods 2 (6), 449-454, 2005 | 671 | 2005 |
| Superplastic carbon nanotubes JY Huang, S Chen, ZQ Wang, K Kempa, YM Wang, SH Jo, G Chen, ... Nature 439 (7074), 281-281, 2006 | 466 | 2006 |
| Photonic crystals based on periodic arrays of aligned carbon nanotubes K Kempa, B Kimball, J Rybczynski, ZP Huang, PF Wu, D Steeves, ... Nano Letters 3 (1), 13-18, 2003 | 462 | 2003 |
| Shadow nanosphere lithography: simulation and experiment A Kosiorek, W Kandulski, P Chudzinski, K Kempa, M Giersig Nano letters 4 (7), 1359-1363, 2004 | 460 | 2004 |
| Metamaterial-plasmonic absorber structure for high efficiency amorphous silicon solar cells Y Wang, T Sun, T Paudel, Y Zhang, Z Ren, K Kempa Nano letters 12 (1), 440-445, 2012 | 422 | 2012 |
| Receiving and transmitting light-like radio waves: Antenna effect in arrays of aligned carbon nanotubes Y Wang, K Kempa, B Kimball, JB Carlson, G Benham, WZ Li, T Kempa, ... Applied physics letters 85 (13), 2607-2609, 2004 | 368 | 2004 |
| Layer-by-layer assembled composites from multiwall carbon nanotubes with different morphologies M Olek, J Ostrander, S Jurga, H Möhwald, N Kotov, K Kempa, M Giersig Nano letters 4 (10), 1889-1895, 2004 | 338 | 2004 |
| Uniform self‐forming metallic network as a high‐performance transparent conductive electrode B Han, K Pei, Y Huang, X Zhang, Q Rong, Q Lin, Y Guo, T Sun, C Guo, ... Advanced materials 26 (6), 873-877, 2014 | 323 | 2014 |
| Carbon nanotubes as optical antennae K Kempa, J Rybczynski, Z Huang, K Gregorczyk, A Vidan, B Kimball, ... ADVANCED MATERIALS-DEERFIELD BEACH THEN WEINHEIM- 19 (3), 421, 2007 | 268 | 2007 |
| Multipole plasmon modes at a metal surface PB KD Tsuei, EW Plummer, A Liebsch, K Kempa Physical review letters 64 (1), 44, 1990 | 253 | 1990 |
| The normal modes at the surface of simple metals KD Tsuei, EW Plummer, A Liebsch, E Pehlke, K Kempa, P Bakshi Surface science 247 (2-3), 302-326, 1991 | 234 | 1991 |
| Growth of large periodic arrays of carbon nanotubes ZP Huang, DL Carnahan, J Rybczynski, M Giersig, M Sennett, DZ Wang, ... Applied Physics Letters 82 (3), 460-462, 2003 | 210 | 2003 |
| Unrestricted superlensing in a triangular two-dimensional photonic crystal X Wang, ZF Ren, K Kempa Optics Express 12 (13), 2919-2924, 2004 | 204 | 2004 |
| Foundations of plasmonics Y Wang, EW Plummer, K Kempa Advances in Physics 60 (5), 799-898, 2011 | 191 | 2011 |
| Hierarchical Defective Fe3‐xC@C Hollow Microsphere Enables Fast and Long‐Lasting Lithium–Sulfur Batteries Y Zhang, G Li, J Wang, G Cui, X Wei, L Shui, K Kempa, G Zhou, X Wang, ... Advanced Functional Materials 30 (22), 2001165, 2020 | 185 | 2020 |
| Strain engineering of a MXene/CNT hierarchical porous hollow microsphere electrocatalyst for a high‐efficiency lithium polysulfide conversion process X Wang, D Luo, J Wang, Z Sun, G Cui, Y Chen, T Wang, L Zheng, Y Zhao, ... Angewandte Chemie International Edition 60 (5), 2371-2378, 2021 | 180 | 2021 |
| Lattice thermal conductivity of wires SG Walkauskas, DA Broido, K Kempa, TL Reinecke Journal of applied physics 85 (5), 2579-2582, 1999 | 158 | 1999 |
| Strong enhancement of the Breit-Wigner-Fano Raman line in carbon nanotube bundles caused by plasmon band formation C Jiang, K Kempa, J Zhao, U Schlecht, U Kolb, T Basché, M Burghard, ... Physical Review B 66 (16), 161404, 2002 | 153 | 2002 |
| Bio-inspired networks for optoelectronic applications B Han, Y Huang, R Li, Q Peng, J Luo, K Pei, A Herczynski, K Kempa, ... Nature communications 5 (1), 5674, 2014 | 148 | 2014 |
| Enhanced Introduction of Gold Nanoparticles into Vital Acidothiobacillus ferrooxidans by Carbon Nanotube-based Microwave Electroporation JA Rojas-Chapana, MA Correa-Duarte, Z Ren, K Kempa, M Giersig Nano Letters 4 (5), 985-988, 2004 | 142 | 2004 |
Z. F. RenProfessor of Physics, Boston CollegeBestätigte E-Mail-Adresse bei central.uh.edu
