174
40th IEEE PHOTOVOLTAIC SPECIALISTS CONFERENCE
TECHNICAL PROGRAM
4:30
(969) Accurate measurement of temperature
and electrochemical potential of InGaAsP/InP
heterostructures: a first indication of hot carriers
solar cell operation
Laurent Lombez
1
, Jean Rodière
1
, Hervé Folliot
2
, Alain
LeCorre
2
, Olivier Durand
2
, Jean-François Guillemoles
1
1
IRDEP, Institute of R&D on Photovoltaic Energy, UMR
7174, CNRS-EDF-Chimie ParisTech 6 Quai Watier-BP
49, 78401, Chatou, France,
2
Université Européenne de
Bretagne, INSA, CNRS, FOTON, UMR 6082, F-35708,
Rennes, France
4:45
(970) Evaluation of Hafnium Nitride and Zirconium
Nitride as Hot Carrier Absorber
Santosh Shrestha, Simon Chung, Neeti Gupta, Yu Feng,
Xiaoming Wen, Hongze Xia, Gavin Conibeer
School of Photovoltaic and Renewable Energy
Engineering, UNSW Australia, Sydney, Australia
Area 1 - Orals
3:30 - 5:00 PM
Ballroom 1CD
Novel Materials and Concepts
Chair(s): Mariana Bertoni, Adele Tamboli, Mike Scarpulla
3:30
Best Student Presentation Award Finalist
(971) Growth morphology of ZnSe/Zn
3
P
2
heterojunction solar cells
Jeffrey P Bosco
1
, Steve J Rozeveld
2
, Harry A Atwater
1
1
California Institute of Technology, Pasadena, CA, USA,
2
The DOW Chemical Company, Midland, MI, USA
4:00
(972) Intrinsic defect engineering of cuprous oxide
to enhance electrical transport properties for
photovoltaic applications
Michael A. Lloyd
1
, Sin Cheng Siah
1
, Riley E. Brandt
1
,
James Serdy
1
, Steve W. Johnston
2
, Yun Seog Lee
1
,
Tonio Buonassisi
1
1
Massachusetts Institute of Technology, Cambridge,
MA, USA,
2
National Renewable Energy Laboratory,
Golden, CO, USA
4:15
(973) Development of ZnSiP
2
for Si-Based Tandem
Solar Cells
Aaron D Martinez
1
, Brenden R Ortiz
1
, Nicole E Johnson
1
,
Lakshmi Krishna
1
, Sukgeun Choi
2
, Bobby To
2
, Andrew
G Norman
2
, Vladan Stevanovic
1,2
, Eric S Toberer
1,2
, Paul
Stradins
1,2
, Adele C Tamboli
1,2
1
Colorado School of Mines, Golden, CO, USA,
2
National
Renewable Energy Laboratory, Golden, CO, USA
4:30
(974) Exotic phase Si nanoparticles and Si-ZnS
nanocomposites: new paradigms to improve the
efficiency of MEG solar cells
Marton Voros
1
, Stefan Wippermann
2
, Adam Gali
3,4
,
Francois Gygi
5
, Gergely Zimanyi
1
, Giulia Galli
6
1
Department of Physics, University of California Davis,
Davis, CA, USA,
2
Interface Chemistry and Surface
Engineering Department, Max-Planck-Institute for
Iron Research, Düsseldorf, Germany,
3
Department of
Atomic Physics, Budapest University of Technology and
Economics, Budapest, Hungary,
4
Institute for Solid State
Physics and Optics, Wigner Research Centre for Physics,
Budapest, Hungary,
5
Department of Computer Science,
University of California, Davis, Davis, CA, USA,
6
Institute
for Molecular Engineering, The University of Chicago,
Chicago, IL, USA
