Sang E. Han, Ph.D.
Affiliations: | 2009 | Chemical Engineering | University of Minnesota, Twin Cities, Minneapolis, MN |
Area:
Semiconductor Nanocrystals and Thermal PlasmonicsGoogle:
"Sang Han"Mean distance: 9.87 | S | N | B | C | P |
Parents
Sign in to add mentor| David J. Norris | grad student | 2009 | UMN | |
| (Thermal emission control with periodic microstructures.) | ||||
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Publications
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| Lee SH, Han SM, Han SE. (2019) Characterizing randomness in photonic glasses using autocorrelation functions of two-dimensional images. Optics Express. 27: 35842-35855 |
| Alden JD, Atiganyanun S, Vanderburg R, et al. (2019) Radiative cooling by silicone-based coating with randomly distributed microbubble inclusions Journal of Photonics For Energy. 9: 1 |
| Atiganyanun S, Plumley JB, Han SJ, et al. (2018) Effective Radiative Cooling by Paint-Format Microsphere-Based Photonic Random Media Acs Photonics. 5: 1181-1187 |
| Han SJ, Ghosh S, Abudayyeh OK, et al. (2016) Symmetry-breaking nanostructures on crystalline silicon for enhanced light trapping in thin film solar cells. Optics Express. 24: A1586-A1596 |
| Han SE. (2016) Suppression of infrared absorption in nanostructured metals by controlling Faraday inductance and electron path length. Optics Express. 24: 2577-89 |
| Park JH, Han SE, Nagpal P, et al. (2016) Correction to Observation of Thermal Beaming from Tungsten and Molybdenum Bull’s Eyes Acs Photonics. 3: 2003-2003 |
| Park JH, Han SE, Nagpal P, et al. (2016) Observation of Thermal Beaming from Tungsten and Molybdenum Bull 's Eyes Acs Photonics. 3: 494-500 |
| Branham MS, Hsu WC, Yerci S, et al. (2016) Empirical Comparison of Random and Periodic Surface Light-Trapping Structures for Ultrathin Silicon Photovoltaics Advanced Optical Materials. 4: 858-863 |
| Branham MS, Hsu WC, Yerci S, et al. (2015) Silicon Solar Cells: 15.7% Efficient 10-μm-Thick Crystalline Silicon Solar Cells Using Periodic Nanostructures (Adv. Mater. 13/2015). Advanced Materials (Deerfield Beach, Fla.). 27: 2268 |
| Branham MS, Hsu WC, Yerci S, et al. (2015) 15.7% Efficient 10-μm-thick crystalline silicon solar cells using periodic nanostructures. Advanced Materials (Deerfield Beach, Fla.). 27: 2182-8 |