76
40th IEEE PHOTOVOLTAIC SPECIALISTS CONFERENCE
(160-F14)
Development of InGaAs Solar Cells for >44%
Efficient Transfer-Printed Multi-junctions.
Matthew P Lumb
1,2
,
Matthew Meitl
3
, John Wilson
3
, Salvatore Bonafede
3
, Scott
Burroughs
3
, David V Forbes
4
, Christopher G Bailey
2
, Nichole M
Hoven
4
, Maria Gonzalez
2,5
, Michael K Yakes
2
, Stephen J Polly
4
,
Seth M Hubbard
4
, Robert J Walters
2
.
1
The George Washington
University, Washington, DC, USA,
2
Naval Research Laboratory,
Washington, DC, USA,
3
Semprius Inc., Durham, NC, USA,
4
Rochester Institute of Technology, Rochester, NY, USA,
5
Sotera
Defense Solutions, Annapolis Junction, MD, USA.
(161-F16)
Highly Efficient and Reliable Mechanically Stacked
Multi-Junction Solar Cells Using Advanced Bonding Method
with Conductive Nanoparticle Alignments.
Kikuo Makita,
Hidenori Mizuno, Ryuji Oshima, Takeyoshi Sugaya, Hironori
Komaki, Koji Matsubara.
National Institute of Advanced Industrial
Science and Technology, Tsukuba, Japan.
(162-F18)
Defect Creation in Low Lattice-Mismatched
Epitaxial Structures.
Aymeric Maros, Nikolai Faleev, Christiana
Honsberg.
School of Electrical, Computer and Energy
Engineering, Arizona State University, Tempe, AZ, USA.
(163-F20)
Effect of substrate offcut angle on AlGaInP and
GaInP solar cells grown by molecular beam epitaxy.
Taizo
Masuda, Stephanie Tomasulo, Jordan R. Lang, Minjoo Larry
Lee.
Yale University, New Haven, CT, USA.
(164-F22)
GaAs solar cells for Indoor Light Harvesting.
Ian
Mathews, Gerard Kelly, Paul J. King, Ronan Frizzell.
Bell Labs,
Alcatel-Lucent, Dublin, Ireland.
(165-F24)
Modeling and fabrication of GaAs solar cells with
high dislocation tolerance.
Akhil Mehrotra, Wei Wang, Alex
Freundlich.
University of Houston, Houston, TX, USA.
(166-F26)
Concentrating Photovoltaic Properties of
GaInNAsSb/Ge Dual Junction Tandem Solar Cell.
Naoya
Miyashita, Nazmul Ahsan, Yoshitaka Okada.
The University of
Tokyo, Tokyo, Japan.
(167-F28)
Development of ZnO-InP Heterojunction Solar
Cells for Thin Film Photovoltaics.
Kyle H. Montgomery
1
,
Qiong Nian
2
, Xin Zhao
1
, Haoyu U. Li
3
, Gary J. Cheng
2
, Thomas
N. Jackson
3
, Jerry M. Woodall
1
.
1
University of California, Davis,
CA, USA,
2
Purdue University, West Lafayette, IN, USA,
3
The
Pennsylvania State University, University Park, PA, USA.
(168-F30)
Selfconsistent Model of Photoconversion
Efficiency for Multijunction Solar Cells.
Anatoliy V. Sachenko
1
,
Anatoli I. Shkrebtii
2
, Vitaliy P. Kostylyov
1
, Mykola R. Kulish
1
,
Igor O. Sokolovskyi
1
.
1
V. Lashkaryov Institute of Semiconductor
Physics, NAS of Ukraine, Kyiv, Ukrenia,
2
University of Ontario
Institute of Technology, Oshawa, ON, Canada.
(169-F32)
Hybrid Triple-Junction Solar Cells by
Surface Activate Bonding of III-V Double-Junction-Cell
Heterostructures to Ion-Implantation-Based Si Cells.
Naoteru
Shigekawa
1
, Li Chai
1
, Masashi Morimoto
1
, Jianbo Liang
1
,
Ryusuke Onitsuka
2
, Takaaki Agui
2
, Hiroyuki Juso
2
, Tatsuya
Takamoto
2
.
1
Osaka City University, Osaka, Japan,
2
Sharp
Corporation, Yamatokoriyama, Japan.
(170-F33)
Low Cost III-V Solar Cells Grown by Hydride Vapor
Phase Epitaxy.
John Simon, David Young, Aaron Ptak.
NREL,
Golden, CO, USA.
TECHNICAL PROGRAM
