JUNE 8-13, 2014 • DENVER, COLORADO
79
TECHNICAL PROGRAM
(190-H15)
Stored Charge Properties of Anodic Aluminium
Oxide on Silicon Substrate.
Zhong Lu
1
, Pei Hsuan Lu
1
, Ziv
Hameiri
2
, Kai Wang
1
, Jie Cui
1
, Yang Li
1
, Alison Lennon
1
.
1
The
School of Photovoltaics and Renewable Energy Engineering,
The University of New South Wales, Sydney NSW, Australia,
2
Solar Energy Research Institute of Singapore, National
University of Singapore, Singapore, Singapore.
(192-H23)
Double-scale texturing for light trapping in Thin
Film Crystalline Silicon Solar Cells.
Xianqin Meng
1,2,4,*
,
Emmanuel Drouard
1,2
, Guillaume Gomard
1,2,5
, Valérie
Depauw
3
, Rafael Kleiman
4
, Christian Seassal
1,2
.
1
Institut des
Nanotechnologies de Lyon (INL), Ecole Centrale de Lyon, Lyon,
France,
2
Institut des Nanotechnologies de Lyon (INL), INSA
de Lyon, Lyon, France,
3
Imec, Leuven, Belgium,
4
Engineering
Physics, McMaster University, Hamilton, ON, Canada,
5
Light
Technology Institute (LTI), Karlsruhe Institute of Technology
(KIT), Karlsruhe, Germany.
(193-H27)
Inductively coupled plasma deposited
amorphous silicon alloys using industrial equipment for
heterojunction silicon solar cells.
Thomas Mueller
1
, Jia Ge
1
,
Muzhi Tang
1
, Johnson Wong
1
, Zhi Peng Ling
1
, Zhenhao Zhang
2
,
Manfred Doerr
2
, Torsten Dippell
2
, Oliver Hohn
2
, Marco Huber
2
,
Peter Wohlfart
2
.
1
Solar Energy Research Institute of Singapore
(SERIS), Singapore, Singapore,
2
Singulus Technologies AG,
Kahl am Main, Germany.
(194-H31)
Dielectric Stack Passivation and Optimization
on N-Type Diffused Surfaces.
Bill Nemeth
1
, Hao-Chih Yuan
1
,
Matt Page
1
, Vincenzo LaSalvia
1
, Rohan Chaulkulkar
2
, Lynn
Gedvillas
1
, Jian Li
1
, Robert White
1
, Paul Stradins
1
.
1
National
Renewable Energy Laboratory, Golden, CO, USA,
2
Colorado
School of Mines, Golden, CO, USA.
(195-H35)
p+ Emitters on n-Type c-Si dry-etched with
nitrogen trifluoride and passivated with ALD aluminum
oxide.
Tim Reblitz, Clarence Tracy, Bill Dauksher, Stuart
Bowden.
Arizona State University, Tempe, AZ, USA.
(196-H39)
Improved Cleaning Process for Post-Texture
Surface Contamination Removal for Single Heterojunction
Solar Cells on ~25μm Thick Exfoliated and Flexible Mono-
crystalline Silicon Substrates.
Sayan Saha
1
, Emmanuel U
Onyegam
1
, Sushant S Sonde
1
, Mohamed M Hilali
1
, Dharmesh
Jawarani
2
, Rajesh A Rao
3
, Leo Mathew
3
, Ajay Upadhyaya
4
,
Sanjay K Banerjee
1
.
1
University of Texas - Austin, Austin, TX,
USA,
2
AstroWatt, Inc., Austin, TX, USA,
3
Applied Novel devices,
Austin, TX, USA,
4
Georgia Institute of Technology, Atlanta, TX,
USA.
(197-I3)
Growth of Graded SixNy ARC for High Efficiency
and Lower Cell-to-Module Power Loss in Multi-crystalline
Silicon Solar Cells in a High Volume In-Line Production.
Virender Sharma
1,2
, D.N Singh
1
, Abhishek Verma
2
, R.B Gupta
1
,
V.K Jain
2
, C.M Kumar
1
.
1
INDOSOLAR LTD, Greater Noida,
India,
2
Amity University, Noida, India.
(198-I7)
Micro-concentrated Silicon Heterojunction Solar
Cell: PC2D Device Simulation for Harvesting Infrared Light.
Jianwei Shi, Zachary Holman.
Arizona State University, Tempe,
AZ, USA.
