JUNE 8-13, 2014 • DENVER, COLORADO
139
TECHNICAL PROGRAM
(687-G17)
Investigation of Rear SiOx/SiNx Passivated
Solar Cells Under Low Irradiance Intensities.
Wei-Chih
Cheng, Jun-Rui Huang, Kuo-Yi Yen, Chi-Yu Hsieh, Chih-Ming
Kang, Sean Huai Chung Chen, Li-Wei Cheng.
Topcell Solar
International Co., Ltd., Taoyuan County, Taiwan.
(688-G21)
Impact of the bias on the temperature of silicon
solar cells under operating conditions.
Romain Couderc
1,2
,
Mustapha Lemiti
2
, Mohamed Amara
1
.
1
Centre de thermique
CETHIL-UMR5008 CNRS, Villeurbanne, France,
2
Institut de
Nanotechnologies INL-UMR5270 CNRS, Villeurbanne, France.
(689-G25)
“Thin Silicon Solar Cells: A Path to 35%
Shockley-Queisser Limits”, a DOE funded FPACE II project.
Laura Ding, Mathieu Boccard, Joshua Williams, April Jeffries,
Srikanth Gangam, Kunal Ghosh, Christiana Honsberg, Mariana
Bertoni, Zachary Holman, Stuart Bowden.
School of Electrical,
Computer & Energy Engineering, Arizona State University,
Tempe, AZ, USA.
(690-G29)
Evaluation of Recombination Losses in Bifacial
n+-p-p+ and p+-n-n+ Si Solar Cells Fabricated Using B Ion
Implantation.
Ygal Eisenberg
1
, lev Kreinin
1
, Ninel Bordin
1
,
Galina Grigorieva
2
, Marlen Kagan
2
, Kira Zviagina
2
, Naftali
Eisenberg
1
, Shlomo Hava
3
.
1
Jerusalem College of Technology,
Jerusalem, Israel,
2
KVANT Research and Production
Enterprise, Moscow, Russia,
3
Ben-Gurion University of the
Negev, Beer Sheva, Israel.
(691-G33)
Role of the Interfacial Inversion Layer with
Reduced Bandgap Narrowing in the Improvement of the
Open Circuit Voltage of Amorphous Silicon/Crystalline
Silicon Heterojunction [HIT] Solar Cell.
Moustafa Y
Ghannam
1
, Ghadah Shehadah
1
, Yaser Abdulraheem
1
,
Jef Poortmans
2
.
1
EE Department, College of Emgineering
and Petroleum, Kuwait University, Kuwait, Kuwait,
2
IMEC,
Kapeldreef 75, 3001, Leuven, Belgium.
(692-G37)
Topology Optimization: An effective method
for designing front metallization patterns of solar cells.
Deepak K. Gupta
1
, Matthijs Langelaar
1
, Marco Barink
2
, Fred
van Keulen
1
.
1
Precision and Microsystems Engineering, Delft
University of Technology, Delft, Netherlands,
2
TNO, Eindhoven,
Netherlands.
(693-H1)
Hydrogen Passivation of Laser-Induced Defects
for Silicon Solar Cells.
Brett J Hallam
1,2
, Adeline Sugianto
1
,
Ly Mai
1
, GuangQi Xu
1
, Catherine E Chan
1
, Malcolm D Abbott
1
,
Stuart R Wenham
1
, Angel Uruena
3
, Monica Aleman
3
, Jef
Poortmans
2,3,4
.
1
School of Photovoltaic and Renewable Energy
Engineering, University of New South Wales, Kensington,
Australia,
2
KU Leuven, Leuven, Belgium,
3
imec, Leuven,
Belgium,
4
UHasselt, Hasselt, Belgium.
(694-H5)
Zn as the Protective Layer for Cu Electrode in
Wafer-Si Solar Cells.
Xiaofei Han
1
, Bin Zhou
1
, Deren Yang
2
,
Meng Tao
1
.
1
Arizona State University, Tempe, AZ, USA,
2
Zhejiang University, Hangzhou, China.
(695-H9)
A simplified process flow for silicon
heterojunction interdigitated back contact solar cells:
using shadow masks and tunnel junctions.
Stanislau Y
Herasimenka, Clarence J Tracy, Jongwon Lee, William J
Dauksher, Christiana B Honsberg, Stuart Bowden.
Arizona
State University, Tempe, AZ, USA.
(696-H13)
Micro Cold Spray Printed Top Metallization Layer
for Solar Cells.
Justin M Hoey, Michael J Robinson, Robert A
Sailer.
North Dakota State University, Fargo, ND, USA.
