Y. Ma, T. Hertel, Z. Vardeny, G. Fleming, and L. Valkunas. CARBON NA NOTUBES: ADVANCED TOPICS IN THE SYNTHESIS, STRUCTURE,
PROPERTIES AND APPLICATIONS, volume 111 of Topics in Applied Physics, (2008)
Abstract
Time-domain spectroscopic studies provide a unique perspective on the
materials properties and the microscopic processes underlying them in
carbon nanotubes. Ultrafast spectroscopy is used to study the dynamics
and kinetics of scattering and relaxation processes from the femtosecond
(1 fs equivalent to 10(-15) s) to the picosecond timescale. This
provides crucial information on carrier and exciton dynamics that
underpin a variety of potential applications of carbon nanotubes, from
their use as current-carrying quantum wires, through light-emitting or
detecting nanodevices, to their use in light-harvesting technologies and
photovoltaics. Background information on the ultrafast spectroscopic
techniques of greatest applicability to nanotubes is also provided.
%0 Book Section
%1 ma2008ultrafast
%A Ma, Ying-Zhong
%A Hertel, Tobias
%A Vardeny, Zeev Valy
%A Fleming, Graham R.
%A Valkunas, Leonas
%B CARBON NA NOTUBES: ADVANCED TOPICS IN THE SYNTHESIS, STRUCTURE,
PROPERTIES AND APPLICATIONS
%D 2008
%E Jorio, A and Dresselhaus, G and Dresselhaus, MS,
%K imported myown
%P 321-352
%T Ultrafast Spectroscopy of carbon nanotubes
%V 111
%X Time-domain spectroscopic studies provide a unique perspective on the
materials properties and the microscopic processes underlying them in
carbon nanotubes. Ultrafast spectroscopy is used to study the dynamics
and kinetics of scattering and relaxation processes from the femtosecond
(1 fs equivalent to 10(-15) s) to the picosecond timescale. This
provides crucial information on carrier and exciton dynamics that
underpin a variety of potential applications of carbon nanotubes, from
their use as current-carrying quantum wires, through light-emitting or
detecting nanodevices, to their use in light-harvesting technologies and
photovoltaics. Background information on the ultrafast spectroscopic
techniques of greatest applicability to nanotubes is also provided.
%@ 978-3-540-72864-1
@incollection{ma2008ultrafast,
abstract = {{Time-domain spectroscopic studies provide a unique perspective on the
materials properties and the microscopic processes underlying them in
carbon nanotubes. Ultrafast spectroscopy is used to study the dynamics
and kinetics of scattering and relaxation processes from the femtosecond
(1 fs equivalent to 10(-15) s) to the picosecond timescale. This
provides crucial information on carrier and exciton dynamics that
underpin a variety of potential applications of carbon nanotubes, from
their use as current-carrying quantum wires, through light-emitting or
detecting nanodevices, to their use in light-harvesting technologies and
photovoltaics. Background information on the ultrafast spectroscopic
techniques of greatest applicability to nanotubes is also provided.}},
added-at = {2021-01-26T13:59:01.000+0100},
author = {Ma, Ying-Zhong and Hertel, Tobias and Vardeny, Zeev Valy and Fleming, Graham R. and Valkunas, Leonas},
biburl = {https://www.bibsonomy.org/bibtex/2860657387b9fb3e19eebb753982d742e/hertel-group},
booktitle = {{CARBON NA NOTUBES: ADVANCED TOPICS IN THE SYNTHESIS, STRUCTURE,
PROPERTIES AND APPLICATIONS}},
editor = {{Jorio, A and Dresselhaus, G and Dresselhaus, MS}},
interhash = {747039c1da4d80a65cd8c1ebe44f8b31},
intrahash = {860657387b9fb3e19eebb753982d742e},
isbn = {{978-3-540-72864-1}},
issn = {{0303-4216}},
keywords = {imported myown},
orcid-numbers = {{Ma, Yingzhong/0000-0002-8154-1006
}},
pages = {{321-352}},
researcherid-numbers = {{Ma, Yingzhong/L-6261-2016
Hertel, Tobias/D-5805-2013
Hertel, Tobias/J-4243-2012}},
series = {{Topics in Applied Physics}},
timestamp = {2021-01-26T13:59:08.000+0100},
title = {{Ultrafast Spectroscopy of carbon nanotubes}},
unique-id = {{ISI:000253476700011}},
volume = {{111}},
year = {{2008}}
}