148
40th IEEE PHOTOVOLTAIC SPECIALISTS CONFERENCE
TECHNICAL PROGRAM
4:15
(778) III-V-N/Si heteroepitaxy for multijunction solar
cells
Akihiro Wakahara, Noriyuki Urakami, Hiroto Sekiguchi,
Keisuke Yamane
Toyohashi University of Technology, Toyohashi, Japan
4:30
(779) An Experimental-Theoretical Atomic-Scale
Study -
In Situ
Analysis of III-V on Si(100) Growth
for Hybrid Solar Cells
Oliver Supplie
1,2
, Sebastian Brueckner
1,2
,
Oleksandr Romanyuk
3
, Matthias M. May
2
, Henning
Doescher
4
, Peter Kleinschmidt
1,2
, Helena Stange
2
,
Anja Dobrich
1,2
, Christian Hoehn
2
, Hans-Joachim
Lewerenz
5
, Frank Grosse
6
, Thomas Hannappel
1,2
1
Ilmenau University of TechnologyTechnical,
Ilmenau, Germany,
2
Helmholtz-Zentrum Berlin,
Berlin, Germany,
3
Academy of Sciences of the
Czech Republic, Prague, Czech Republic,
4
National
Renewable Energy Laboratory, Golden, CO, USA,
5
California Institute of Technology, Pasadena, CA,
USA,
6
Paul-Drude Institute, Berlin, Germany
4:45
(780) Rapid Characterization of Extended Defects
in III-V/Si by Electron Channeling Contrast
Imaging
Santino D. Carnevale
1
, Julia I. Deitz
2
, Tyler J.
Grassman
1,2
, John A. Carlin
3
, Yoosuf N. Picard
4
,
Marc De Graef
4
, Steven A. Ringel
1,3
1
Department of Electrical and Computer
Engineering, The Ohio State University, Columbus,
OH, USA,
2
Department of Materials Science and
Engineering, The Ohio State University, Columbus,
OH, USA,
3
Institute for Materials Research, The
Ohio State University, Columbus, OH, USA,
4
Department of Materials Science and Engineering,
Carnegie Mellon University, Pittsburgh, PA, USA
Area 1 - Orals
3:30 - 5:00 PM
Ballroom 1AB
Light Management 2: Light Trapping and Advanced ARCs
Chair(s): Jonathan Grandidier, Pei-chen Yu
3:30
(781) High-Efficiency Solar Cells by
Nanophotonic Design
Albert Polman
FOM Institute AMOLF, Amsterdam, Netherlands
4:00
Best Student Presentation Award Finalist
(782) Plasmonic Nanocavity Organic Solar
Cells with Highly Enhanced Power Conversion
Efficiency, Broad-Band, and Omni-Acceptance
Wei Ding, Stephen Y. Chou
Princeton University, Princeton, NJ, USA
4:30
(783) Advanced Broadband Antireflection
Coatings Based on Cellulose Micro-fiber Paper
Dongheon Ha
1,2
, Zhiqiang Fang
3
, Liangbing Hu
3
,
Jeremy N. Munday
1,2
1
Department of Electrical and Computer
Engineering, University of Maryland, College Park,
MD, USA,
2
Institute for Research in Electronics and
Applied Physics, University of Maryland, College
Park, MD, USA,
3
Department of Materials Science
and Engineering, University of Maryland, College
Park, MD, USA
