Thomas J. Kempa, Ph.D.
Affiliations: | 2012 | Chemistry and Chemical Biology | Harvard University, Cambridge, MA, United States |
Area:
nanoscienceGoogle:
"Thomas Kempa"Mean distance: 7.85 | S | N | B | C | P |
Parents
Sign in to add mentorCharles M. Lieber | grad student | 2012 | Harvard | |
(Nanowire Architectures for Next-Generation Solar Cells and Photonic Devices.) |
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Publications
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Chowdhury T, Kim J, Sadler EC, et al. (2019) Substrate-directed synthesis of MoS nanocrystals with tunable dimensionality and optical properties. Nature Nanotechnology |
Solomos MA, Claire FJ, Kempa TJ. (2019) 2D molecular crystal lattices: advances in their synthesis, characterization, and application Journal of Materials Chemistry A. 7: 23537-23562 |
Claire FJ, Tenney SM, Li MM, et al. (2018) Hierarchically Ordered 2-Dimensional Coordination Polymers Assembled from Redox-Active Dimolybdenum Clusters. Journal of the American Chemical Society |
Kossak AE, Stephens BO, Tian Y, et al. (2018) Anisotropic and Multi-Component Nanostructures by Controlled Symmetry Breaking of Metal Halide Intermediates. Nano Letters |
Kempa TJ, Bediako DK, Kim SK, et al. (2015) High-throughput patterning of photonic structures with tunable periodicity. Proceedings of the National Academy of Sciences of the United States of America. 112: 5309-13 |
Kempa TJ, Bediako DK, Jones EC, et al. (2015) Facile, rapid, and large-area periodic patterning of semiconductor substrates with submicron inorganic structures. Journal of the American Chemical Society. 137: 3739-42 |
Song KD, Kempa TJ, Park HG, et al. (2014) Laterally assembled nanowires for ultrathin broadband solar absorbers. Optics Express. 22: A992-A1000 |
Kim SK, Song KD, Kempa TJ, et al. (2014) Design of nanowire optical cavities as efficient photon absorbers. Acs Nano. 8: 3707-14 |
Kempa TJ, Lieber CM. (2014) Semiconductor nanowire solar cells: Synthetic advances and tunable properties Pure and Applied Chemistry. 86: 13-26 |
Kempa TJ, Kim SK, Day RW, et al. (2013) Facet-selective growth on nanowires yields multi-component nanostructures and photonic devices. Journal of the American Chemical Society. 135: 18354-7 |