Uwe Kortshagen
Uwe Kortshagen
Department of Mechanical Engineering, University of Minnesota
Verified email at - Homepage
Cited by
Cited by
Photosensitization of ZnO nanowires with CdSe quantum dots for photovoltaic devices
KS Leschkies, R Divakar, J Basu, E Enache-Pommer, JE Boercker, ...
Nano letters 7 (6), 1793-1798, 2007
The 2017 Plasma Roadmap: Low temperature plasma science and technology
I Adamovich, SD Baalrud, A Bogaerts, PJ Bruggeman, M Cappelli, ...
Journal of Physics D: Applied Physics 50 (32), 323001, 2017
High-yield plasma synthesis of luminescent silicon nanocrystals
L Mangolini, E Thimsen, U Kortshagen
Nano letters 5 (4), 655-659, 2005
The 2012 plasma roadmap
S Samukawa, M Hori, S Rauf, K Tachibana, P Bruggeman, G Kroesen, ...
Journal of Physics D: Applied Physics 45 (25), 253001, 2012
Silicon nanocrystals with ensemble quantum yields exceeding 60%
D Jurbergs, E Rogojina, L Mangolini, U Kortshagen
Applied physics letters 88 (23), 2006
Hybrid solar cells from P3HT and silicon nanocrystals
CY Liu, ZC Holman, UR Kortshagen
Nano letters 9 (1), 449-452, 2009
Process and apparatus for forming nanoparticles using radiofrequency plasmas
U Kortshagen, EJ Thimsen, L Mangolini, A Bapat, D Jurbergs
US Patent 7,446,335, 2008
Nanoscale design to enable the revolution in renewable energy
J Baxter, Z Bian, G Chen, D Danielson, MS Dresselhaus, AG Fedorov, ...
Energy & Environmental Science 2 (6), 559-588, 2009
Nonthermal plasma synthesis of nanocrystals: fundamental principles, materials, and applications
UR Kortshagen, RM Sankaran, RN Pereira, SL Girshick, JJ Wu, ES Aydil
Chemical reviews 116 (18), 11061-11127, 2016
High-efficiency silicon nanocrystal light-emitting devices
KY Cheng, R Anthony, UR Kortshagen, RJ Holmes
Nano letters 11 (5), 1952-1956, 2011
Highly efficient luminescent solar concentrators based on earth-abundant indirect-bandgap silicon quantum dots
F Meinardi, S Ehrenberg, L Dhamo, F Carulli, M Mauri, F Bruni, ...
Nature Photonics 11 (3), 177-185, 2017
Universal Size-Dependent Trend in Auger Recombination<? format?> in Direct-Gap and Indirect-Gap Semiconductor Nanocrystals
I Robel, R Gresback, U Kortshagen, RD Schaller, VI Klimov
Physical review letters 102 (17), 177404, 2009
Nonthermal plasma synthesis of semiconductor nanocrystals
U Kortshagen
Journal of Physics D: Applied Physics 42 (11), 113001, 2009
On the E-H mode transition in RF inductive discharges
U Kortshagen, ND Gibson, JE Lawler
Journal of Physics D: Applied Physics 29 (5), 1224, 1996
Inside Front Cover: Plasma‐Assisted Synthesis of Silicon Nanocrystal Inks (Adv. Mater. 18/2007)
L Mangolini, U Kortshagen
Advanced Materials 19 (18), 2007
Modeling of particulate coagulation in low pressure plasmas
U Kortshagen, U Bhandarkar
Physical Review E 60 (1), 887, 1999
Doping efficiency, dopant location, and oxidation of Si nanocrystals
XD Pi, R Gresback, RW Liptak, SA Campbell, U Kortshagen
Applied Physics Letters 92 (12), 2008
Radial structure of a low-frequency atmospheric-pressure glow discharge in helium
L Mangolini, K Orlov, U Kortshagen, J Heberlein, U Kogelschatz
Applied physics letters 80 (10), 1722-1724, 2002
On simplifying approaches to the solution of the Boltzmann equation in spatially inhomogeneous plasmas
U Kortshagen, C Busch, LD Tsendin
Plasma Sources Science and Technology 5 (1), 1, 1996
Phosphorus-doped silicon nanocrystals exhibiting mid-infrared localized surface plasmon resonance
DJ Rowe, JS Jeong, KA Mkhoyan, UR Kortshagen
Nano letters 13 (3), 1317-1322, 2013
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