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@ARTICLE{Rawolle:139000,
author = {Rawolle, M. and Niedermeier, M. A. and Kaune, G. and
Perlich, J. and Lellig, P. and Memesa, M. and Cheng, Y.-J.
and Gutmann, J. S. and Müller-Buschbaum, P. and DESY},
title = {{F}abrication and characterization of nanostructured
titania films with integrated function from
inorganic-organic hybrid materials},
journal = {Chemical Society reviews},
volume = {41},
issn = {0306-0012},
address = {London},
publisher = {Soc.},
reportid = {PHPPUBDB-23858},
pages = {5131-5142},
year = {2012},
abstract = {Nanostructured titania films are of growing interest due to
their application in future photovoltaic technologies.
Therefore, a lot of effort has been put into the controlled
fabrication and tailoring of titania nanostructures. The
controlled sol-gel synthesis of titania, in particular in
combination with block copolymer templates, is very
promising because of its high control on the nanostructure,
easy application and cheap processing possibilities. This
tutorial review gives a short overview of the structural
control of titania films gained by using templated sol-gel
chemistry and shows how this approach is extended by the
addition of further functionality to the films. Different
expansions of the sol-gel templating are possible by the
fabrication of gradient samples, by the addition of a
homopolymer, by the combination with micro-fluidics and also
by the application of novel precursors for low-temperature
processing. Moreover, hierarchically structured titania
films can be fabricated via the subsequent application of
several sol-gel steps or via the inclusion of colloidal
templates in a one-step process. Integrated function in the
block copolymer used in the sol-gel synthesis allows for the
fabrication of an integrated blocking layer or an integrated
hole-conductor. Both approaches grant a one-step fabrication
of two components of a working solar cell, which make them
very promising towards a cheap solar cell production route.
Looking to the complete solar cell, the top contact is also
of great importance as it influences the function of the
whole solar cell. Thus, the mechanisms acting in the top
contact formation are also reviewed. For all these aspects,
characterization techniques that allow for a structural
investigation of nanostructures inside the active layers are
important. Therefore, the characterization techniques that
are used in real space as well as in reciprocal space are
explained shortly as well.},
cin = {HASYLAB},
ddc = {540},
cid = {$I:(DE-H253)HASYLAB_-2012_-20130307$},
pnm = {DORIS Beamline BW4 (POF2-54G13) / FS-Proposal: II-20100012
(II-20100012)},
pid = {G:(DE-H253)POF2-BW4-20130405 / G:(DE-H253)II-20100012},
experiment = {EXP:(DE-H253)D-BW4-20150101},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:22415549},
UT = {WOS:000306227900008},
doi = {10.1039/c2cs15321a},
url = {https://bib-pubdb1.desy.de/record/139000},
}
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