JUNE 8-13, 2014 • DENVER, COLORADO
69
(93-A25)
Local conductivity characteristics of individual
ErAs nanoparticle for solar cell tunnel junction application.
Chao-Yu Hung, Tomah Sogabe, Naoya Miyashita, Yasushi
Shoji, Shunya Naito, Yoshitaka Okada.
Research Center for
Advanced Science and Technology (RCAST), The University of
Tokyo, Tokyo, Japan.
(94-A28)
Enhanced Light Trapping and Carrier Collection in
Glancing Angle Deposited Nanostructures.
Hilal Cansizoglu,
Mehmet F. Cansizoglu, Tansel Karabacak.
University of
Arkansas at Little Rock, Little Rock, AR, USA.
(95-A31)
N+ and P+ double diffused GaSb PV cells
with interdigitated back contacts for monolithically
interconnected modules.
Jose M Borrego
1
, Eric Brown
2
,
Paul Greif
3
, Amy W K Liu
4
, Geeta Rajagopalan
5
.
1
MTPV Power
Corp., Austin, TX, USA,
2
MTPV Power Corp., Austin, TX, USA,
3
MTPVPower Corp., Austin, TX, USA,
4
IQE, Bethlehem, PA,
USA,
5
United Semiconductor LLC, Rensselaer, NY, USA.
(96-A34)
Numerical Method to Separate the Photo-Current
and Contact Injection Current in Solar Cells.
Raghu V. K.
Chavali, Jeffery L. Gray, John R. Wilcox.
School of Electrical
and Computer Engineering, Purdue University, West Lafayette,
IN, USA.
(97-A37)
Characterization, Modeling and Analysis of
InAlAsSb Schottky Barrier Solar Cells Grown on InP.
Matthew P Lumb
1,2
, Maria Gonzalez
2,3
, Joshua Abell
2
, Joseph
G Tischler
2
, David S Scheiman
2
, Michael K Yakes
2
, Igor
Vurgaftman
2
, Jerry R Meyer
2
, Robert J Walters
2
.
1
The George
Washington University, Washington, DC, USA,
2
US Naval
Research Laboratory, Washington, DC, USA,
3
Sotera Defense
Solutions, Crofton, MD, USA.
(98-A40)
ALD grown absorber materials for bulk
heterojunction solar cells.
Neha Mahuli, Shaibal K Sarkar.
Indian Institute of Technology Bombay, Mumbai, India.
(99-A43)
Chemical and Spatial Control of Substitutional
Intermediate Band Materials: Toward the Atomic Layer
Deposition of V0.25In1.75S3.
Robert F McCarthy
1
, Matthew
S Weimer
1,2
, Adam S Hock
1,2
, Alex B F Martinson
1
.
1
Argonne
National Laboratory, Argonne, IL, USA,
2
Illinois Institute of
Technology, Chicago, IL, USA.
(100-A46)
Structural and morphological studies of
Cuprous Oxide Thin Film Developed via Potentiostatic
Electrodeposition.
Chandan Das
1
, Balasubramaniam
Kavaipatti
1
.
1
Indian Institute of Technology Bombay, Mumbai,
India,
2
Indian Institute of Technology Bombay, Mumbai, India.
(101-B1)
“The Effects of Alkali Metal Diffusion in Zinc
Phosphide Thin Films”.
Brooke E. Paquin, Alex Cimaroli,
Yanfa Yan.,
,, .
(102-B4)
Computational design of p-type transparent
conductors for photovoltaic applications.
Cynthia S Lo,
Maria Stoica, Alireza Faghaninia, Xiaodi Sun.
Washington
University, St. Louis, MO, USA.
(103-B7)
Characterization of sulfurised CuSbS2 thin films
for PV applications.
Enzo Peccerillo, Ken Durose, Jon Major,
Laurie Phillips, Robert Treharne.
Stephenson Institute for
Renewable Energy, Liverpool, UK.
(104-B10)
Photonic Curing of Ligand-Capped CuInSe2
Nanocrystal Films.
C. Jackson Stolle, Taylor B Harvey, Brian A
Korgel.
The University of Texas at Austin, McKetta Department
of Chemical Engineering, Texas Materials Institute, Center for
Nano- and Molecular Science, Austin, TX, USA.
TECHNICAL PROGRAM
