Nanostructured materials for solar cells

Author

Bailey, S.G. ; Castro, S.L. ; Raffaelle, R.P. ; Fahey, S. ; Gennett, T. ; Tin, P.

Author_Institution

NASA Glenn Res. Center, Cleveland, OH, USA

Volume

3

fYear

2003

fDate

18-18 May 2003

Firstpage

2690

Abstract

The use of both inorganic and organic nanostructured materials in producing high efficiency photovoltaics is discussed in this paper. Recent theoretical results indicate that dramatic improvements in device efficiency may be attainable through the use of semiconductor quantum dots in an ordinary p-i-n solar cell. In addition, it has also recently been demonstrated that quantum dots can also be used to improve conversion efficiencies in polymeric thin film solar cells. A similar improvement in these types of cells has also been observed by employing single wall carbon nanotubes. This relatively new carbon allotrope may assist both in the disassociation of excitons as well as carrier transport through the composite material. This paper reviews the efforts that are currently underway to produce and characterize these nanoscale materials and to exploit their unique properties.

Keywords

II-VI semiconductors; cadmium compounds; carbon nanotubes; carrier mobility; composite materials; copper compounds; dissociation; excitons; indium compounds; nanostructured materials; nanotube devices; photovoltaic effects; polymer films; semiconductor quantum dots; solar cells; ternary semiconductors; C; CdSe; CuInS/sub 2/; carbon allotrope; carrier transport; composite material; disassociation; exciton disassociation; excitons; nanostructured materials; p-i-n solar cell; photovoltaic effect; polymeric thin film solar cells; semiconductor quantum dots; single wall carbon nanotube;

fLanguage

English

Publisher

ieee

Conference_Titel

Photovoltaic Energy Conversion, 2003. Proceedings of 3rd World Conference on

Conference_Location

Osaka, Japan

Print_ISBN

4-9901816-0-3

Type

conf

Filename

1305145