Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by Crossref.
Abtew, T A
and
Drabold, D A
2006.
Atomistic simulation of light-induced changes in hydrogenated amorphous silicon.
Journal of Physics: Condensed Matter,
Vol. 18,
Issue. 1,
p.
L1.
Nelson, Donna J.
and
Strano, Michael
2006.
Saving the world with nanotechnology.
Nature Nanotechnology,
Vol. 1,
Issue. 2,
p.
96.
Granqvist, Claes G.
2007.
Transparent conductors as solar energy materials: A panoramic review.
Solar Energy Materials and Solar Cells,
Vol. 91,
Issue. 17,
p.
1529.
Lewis, Nathan S.
2007.
Toward Cost-Effective Solar Energy Use.
Science,
Vol. 315,
Issue. 5813,
p.
798.
Armaroli, Nicola
and
Balzani, Vincenzo
2007.
The Future of Energy Supply: Challenges and Opportunities.
Angewandte Chemie International Edition,
Vol. 46,
Issue. 1-2,
p.
52.
Granqvist, C.G.
Niklasson, G.A.
and
Azens, A.
2007.
Electrochromics: Fundamentals and energy-related applications of oxide-based devices.
Applied Physics A,
Vol. 89,
Issue. 1,
p.
29.
Wadsworth, Jeffrey
and
Cobian, M.
2007.
Compelling Global Issues in Science and Technology and the Role of Materials Science.
Materials Science Forum,
Vol. 539-543,
Issue. ,
p.
1.
Sikdar, Subhas K.
2007.
Sustainability Perspective and Chemistry-Based Technologies.
Industrial & Engineering Chemistry Research,
Vol. 46,
Issue. 14,
p.
4727.
Armaroli, Nicola
and
Balzani, Vincenzo
2007.
Die Zukunft der Energieversorgung – Herausforderungen und Chancen.
Angewandte Chemie,
Vol. 119,
Issue. 1-2,
p.
52.
Chatterjee, S.
2008.
Titania–germanium nanocomposite as a photovoltaic material.
Solar Energy,
Vol. 82,
Issue. 2,
p.
95.
Bergman, T.L.
Faghri, A.
and
Viskanta, R.
2008.
Frontiers in transport phenomena research and education: Energy systems, biological systems, security, information technology and nanotechnology.
International Journal of Heat and Mass Transfer,
Vol. 51,
Issue. 19-20,
p.
4599.
Zhu, Liying
Lu, Ganhua
and
Chen, Junhong
2008.
A Generic Approach to Coat Carbon Nanotubes With Nanoparticles for Potential Energy Applications.
Journal of Heat Transfer,
Vol. 130,
Issue. 4,
Liu, Jun
Cao, Guozhong
Yang, Zhenguo
Wang, Donghai
Dubois, Dan
Zhou, Xiaodong
Graff, Gordon L.
Pederson, Larry R.
and
Zhang, Ji‐Guang
2008.
Oriented Nanostructures for Energy Conversion and Storage.
ChemSusChem,
Vol. 1,
Issue. 8-9,
p.
676.
Arunachalam, V.S.
and
Fleischer, E.L.
2008.
The Global Energy Landscape and Materials Innovation.
MRS Bulletin,
Vol. 33,
Issue. 4,
p.
264.
Kushnir, Duncan
and
Sandén, Björn A.
2008.
Energy Requirements of Carbon Nanoparticle Production.
Journal of Industrial Ecology,
Vol. 12,
Issue. 3,
p.
360.
Chatterjee, Sukti
2008.
The optoelectronic properties of titania–germanium nanocomposites.
Journal of Physics D: Applied Physics,
Vol. 41,
Issue. 5,
p.
055301.
Chatterjee, Sukti
2008.
Titania–germanium nanocomposite for photo-thermo-electric application.
Nanotechnology,
Vol. 19,
Issue. 26,
p.
265701.
Yu, Kehan
and
Chen, Junhong
2009.
Enhancing Solar Cell Efficiencies through 1-D Nanostructures.
Nanoscale Research Letters,
Vol. 4,
Issue. 1,
Wang, YuHuang
Mirkin, Chad A.
and
Park, So-Jung
2009.
Nanofabrication beyond Electronics.
ACS Nano,
Vol. 3,
Issue. 5,
p.
1049.
Lewis, Nathan S.
2009.
A Perspective on Forward Research and Development Paths for Cost‐Effective Solar Energy Utilization.
ChemSusChem,
Vol. 2,
Issue. 5,
p.
383.