E
Erik C. Garnett
Researcher at Fundamental Research on Matter Institute for Atomic and Molecular Physics
Publications - 116
Citations - 18584
Erik C. Garnett is an academic researcher from Fundamental Research on Matter Institute for Atomic and Molecular Physics. The author has contributed to research in topics: Nanowire & Perovskite (structure). The author has an hindex of 39, co-authored 108 publications receiving 16565 citations. Previous affiliations of Erik C. Garnett include Geballe Laboratory for Advanced Materials & University of California, Berkeley.
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Journal ArticleDOI
Enhanced thermoelectric performance of rough silicon nanowires
Allon I. Hochbaum,Renkun Chen,Raul Diaz Delgado,Wenjie Liang,Erik C. Garnett,Mark Najarian,Arun Majumdar,Arun Majumdar,Peidong Yang,Peidong Yang +9 more
TL;DR: In this article, the authors report the electrochemical synthesis of large-area, wafer-scale arrays of rough Si nanowires that are 20-300 nm in diameter.
Journal Article
Enhanced Thermoelectric Performance in Rough Silicon Nanowires
Renkun Chen,Allon I. Hochbaum,Raul Diaz Delgado,Wenjie Liang,Erik C. Garnett,Mark Najarian,Arun Majumdar,Peidong Yang +7 more
TL;DR: Electrochemical synthesis of large-area, wafer-scale arrays of rough Si nanowires that are 20–300 nm in diameter show promise as high-performance, scalable thermoelectric materials.
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Light Trapping in Silicon Nanowire Solar Cells
Erik C. Garnett,Peidong Yang +1 more
TL;DR: It is demonstrated that ordered arrays of silicon nanowires increase the path length of incident solar radiation by up to a factor of 73, which is above the randomized scattering (Lambertian) limit and is superior to other light-trapping methods.
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Photovoltaic materials: Present efficiencies and future challenges
TL;DR: A comprehensively and systematically review the leading candidate materials, present the limitations of each system, and analyze how these limitations can be overcome and overall cell performance improved.
Journal ArticleDOI
Self-limited plasmonic welding of silver nanowire junctions
Erik C. Garnett,Wenshan Cai,Judy J. Cha,Fakhruddin Mahmood,Fakhruddin Mahmood,Stephen T. Connor,M. Greyson Christoforo,Yi Cui,Yi Cui,Michael D. McGehee,Mark L. Brongersma +10 more
TL;DR: A light-induced plasmonic nanowelding technique is demonstrated to assemble metallic nanowires into large interconnected networks and opens new avenues to control light, heat and mass transport at the nanoscale.