Increased electron photoemission from plasmonic nanoparticles and photoemission enhanced solar cells

Andrey Novitsky; Alexander Uskov; Claudia Gritti; I. E. Protsenko; Beata Kardynal; Andrei Lavrinenko

Increased electron photoemission from plasmonic nanoparticles and photoemission enhanced solar cells

Andrey Novitsky, Alexander Uskov, Claudia Gritti, I. E. Protsenko, Beata Kardynal, Andrei Lavrinenko

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

Abstract

Numerical simulation shows possibility to enhance substantially (by one-two orders) the electron photoemission through surface of metal nanoparticles embedded into photovoltaic structures. This, in turn, can lead to increase of the solar cells efficiency due to efficient light-to-electricity transformation below the solar cell semiconductor bandgap.

Original language	English
Title of host publication	Proceedings of the Asia-Pacific Conference on Fundamental Problems of Opto-and Microelectronics
Publication date	2011
Publication status	Published - 2011
Event	Asia-Pacific Conference on Fundamental Problems of Opto-and Microelectronics - Moscow-Samara, Russia Duration: 1 Jan 2011 → …

Conference

Conference	Asia-Pacific Conference on Fundamental Problems of Opto-and Microelectronics
City	Moscow-Samara, Russia
Period	01/01/2011 → …

Access to Document

http://apcom2011.org/

Fingerprint Dive into the research topics of 'Increased electron photoemission from plasmonic nanoparticles and photoemission enhanced solar cells'. Together they form a unique fingerprint.

Cite this

@inproceedings{66d0c9b689b24f3eba2b04a53b71994e,

title = "Increased electron photoemission from plasmonic nanoparticles and photoemission enhanced solar cells",

abstract = "Numerical simulation shows possibility to enhance substantially (by one-two orders) the electron photoemission through surface of metal nanoparticles embedded into photovoltaic structures. This, in turn, can lead to increase of the solar cells efficiency due to efficient light-to-electricity transformation below the solar cell semiconductor bandgap.",

author = "Andrey Novitsky and Alexander Uskov and Claudia Gritti and Protsenko, {I. E.} and Beata Kardynal and Andrei Lavrinenko",

year = "2011",

language = "English",

booktitle = "Proceedings of the Asia-Pacific Conference on Fundamental Problems of Opto-and Microelectronics",

note = "Asia-Pacific Conference on Fundamental Problems of Opto-and Microelectronics, APCOM ; Conference date: 01-01-2011",

}

Novitsky, A, Uskov, A, Gritti, C, Protsenko, IE, Kardynal, B & Lavrinenko, A 2011, Increased electron photoemission from plasmonic nanoparticles and photoemission enhanced solar cells. in Proceedings of the Asia-Pacific Conference on Fundamental Problems of Opto-and Microelectronics. Asia-Pacific Conference on Fundamental Problems of Opto-and Microelectronics, Moscow-Samara, Russia, 01/01/2011. <http://apcom2011.org/>

Increased electron photoemission from plasmonic nanoparticles and photoemission enhanced solar cells. / Novitsky, Andrey; Uskov, Alexander; Gritti, Claudia; Protsenko, I. E.; Kardynal, Beata; Lavrinenko, Andrei.

Proceedings of the Asia-Pacific Conference on Fundamental Problems of Opto-and Microelectronics. 2011.

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

TY - GEN

T1 - Increased electron photoemission from plasmonic nanoparticles and photoemission enhanced solar cells

AU - Novitsky, Andrey

AU - Uskov, Alexander

AU - Gritti, Claudia

AU - Protsenko, I. E.

AU - Kardynal, Beata

AU - Lavrinenko, Andrei

PY - 2011

Y1 - 2011

N2 - Numerical simulation shows possibility to enhance substantially (by one-two orders) the electron photoemission through surface of metal nanoparticles embedded into photovoltaic structures. This, in turn, can lead to increase of the solar cells efficiency due to efficient light-to-electricity transformation below the solar cell semiconductor bandgap.

AB - Numerical simulation shows possibility to enhance substantially (by one-two orders) the electron photoemission through surface of metal nanoparticles embedded into photovoltaic structures. This, in turn, can lead to increase of the solar cells efficiency due to efficient light-to-electricity transformation below the solar cell semiconductor bandgap.

M3 - Article in proceedings

BT - Proceedings of the Asia-Pacific Conference on Fundamental Problems of Opto-and Microelectronics

T2 - Asia-Pacific Conference on Fundamental Problems of Opto-and Microelectronics

Y2 - 1 January 2011

ER -