| Fabrication of 7.2% efficient CZTSSe solar cells using CZTS nanocrystals Q Guo, GM Ford, WC Yang, BC Walker, EA Stach, HW Hillhouse, ... Journal of the American Chemical Society 132 (49), 17384-17386, 2010 | 1189 | 2010 |
| Synthesis of Cu2ZnSnS4 Nanocrystal Ink and Its Use for Solar Cells Q Guo, HW Hillhouse, R Agrawal Journal of the American Chemical Society 131 (33), 11672-11673, 2009 | 947 | 2009 |
| Dependence of carrier mobility on nanocrystal size and ligand length in PbSe nanocrystal solids Y Liu, M Gibbs, J Puthussery, S Gaik, R Ihly, HW Hillhouse, M Law Nano letters 10 (5), 1960-1969, 2010 | 898 | 2010 |
| Development of CuInSe2 Nanocrystal and Nanoring Inks for Low-Cost Solar Cells Q Guo, SJ Kim, M Kar, WN Shafarman, RW Birkmire, EA Stach, R Agrawal, ... Nano letters 8 (9), 2982-2987, 2008 | 709 | 2008 |
| A titanosilicate molecular sieve with adjustable pores for size-selective adsorption of molecules SM Kuznicki, VA Bell, S Nair, HW Hillhouse, RM Jacubinas, ... Nature 412 (6848), 720-724, 2001 | 680 | 2001 |
| Sulfide Nanocrystal Inks for Dense Cu(In1−xGax)(S1−ySey)2 Absorber Films and Their Photovoltaic Performance Q Guo, GM Ford, HW Hillhouse, R Agrawal Nano letters 9 (8), 3060-3065, 2009 | 498 | 2009 |
| Hybrid perovskite films approaching the radiative limit with over 90% photoluminescence quantum efficiency IL Braly, DW DeQuilettes, LM Pazos-Outón, S Burke, ME Ziffer, DS Ginger, ... Nature Photonics 12 (6), 355-361, 2018 | 485 | 2018 |
| Solar cells from colloidal nanocrystals: fundamentals, materials, devices and economics HW Hillhouse, MC Beard Renewable Energy, Vol2_152-Vol2_185, 2018 | 475 | 2018 |
| Earth-abundant element photovoltaics directly from soluble precursors with high yield using a non-toxic solvent W Ki, HW Hillhouse Advanced Energy Materials 1, 2011 | 421 | 2011 |
| Earth Abundant Element Cu2Zn(Sn1−xGex)S4 Nanocrystals for Tunable Band Gap Solar Cells: 6.8% Efficient Device Fabrication GM Ford, Q Guo, R Agrawal, HW Hillhouse Chemistry of Materials 23 (10), 2626-2629, 2011 | 406 | 2011 |
| Highly efficient perovskite–perovskite tandem solar cells reaching 80% of the theoretical limit in photovoltage A Rajagopal, Z Yang, SB Jo, IL Braly, PW Liang, HW Hillhouse, AKY Jen Advanced materials 29 (34), 1702140, 2017 | 334 | 2017 |
| An electrochemical fabrication process for the assembly of anisotropically oriented collagen bundles X Cheng, UA Gurkan, CJ Dehen, MP Tate, HW Hillhouse, GJ Simpson, ... Biomaterials 29 (22), 3278-3288, 2008 | 318 | 2008 |
| Ink formulation and low‐temperature incorporation of sodium to yield 12% efficient Cu(In,Ga)(S,Se)2 solar cells from sulfide nanocrystal inks Q Guo, GM Ford, R Agrawal, HW Hillhouse Progress in Photovoltaics: Research and Applications 21 (1), 64-71, 2013 | 264 | 2013 |
| Universality of non-Ohmic shunt leakage in thin-film solar cells S Dongaonkar, JD Servaites, GM Ford, S Loser, J Moore, RM Gelfand, ... Journal of Applied Physics 108 (12), 2010 | 263 | 2010 |
| Enhancing the performance of CZTSSe solar cells with Ge alloying Q Guo, GM Ford, WC Yang, CJ Hages, HW Hillhouse, R Agrawal Solar Energy Materials and Solar Cells 105, 132-136, 2012 | 248 | 2012 |
| 8% Efficient Cu2ZnSn(S,Se)4 Solar Cells from Redox Equilibrated Simple Precursors in DMSO. H Xin, JK Katahara, IL Braly, HW Hillhouse Advanced Energy Materials 4 (11), 2014 | 243 | 2014 |
| Stabilized wide bandgap perovskite solar cells by tin substitution Z Yang, A Rajagopal, SB Jo, CC Chueh, S Williams, CC Huang, ... Nano letters 16 (12), 7739-7747, 2016 | 228 | 2016 |
| Lithium-doping inverts the nanoscale electric field at the grain boundaries in Cu 2 ZnSn (S, Se) 4 and increases photovoltaic efficiency H Xin, SM Vorpahl, AD Collord, IL Braly, AR Uhl, BW Krueger, DS Ginger, ... Physical Chemistry Chemical Physics 17 (37), 23859-23866, 2015 | 224 | 2015 |
| Current-induced phase segregation in mixed halide hybrid perovskites and its impact on two-terminal tandem solar cell design IL Braly, RJ Stoddard, A Rajagopal, AR Uhl, JK Katahara, AKY Jen, ... ACS Energy Letters 2 (8), 1841-1847, 2017 | 206 | 2017 |
| Quasi-Fermi level splitting and sub-bandgap absorptivity from semiconductor photoluminescence JK Katahara, HW Hillhouse Journal of Applied Physics 116 (17), 2014 | 201 | 2014 |
Rakesh AgrawalPurdue University在 purdue.edu 的电子邮件经过验证
