Redox Active Mesoporous Hybrid Materials by In situ Syntheses with Urea-linked Triethoxysilylated Phenothiazines

Triethoxysilyl functionalized phenothiazinyl ureas were synthesized and immobilized by in situ synthesis into mesoporous hybrid materials. The designed precursor molecules influence the structure of the final materials and the intermolecular distance of the phenothiazines. XRD and N2 adsorption meas...

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Published in:Chemistry, an Asian journal an Asian journal, 2010-09, Vol.5 (9), p.2001-2015
Main Authors: Zhou, Zhou, Franz, Adam W., Bay, Sarah, Sarkar, Biprajit, Seifert, Andreas, Yang, Piaoping, Wagener, Alex, Ernst, Stefan, Pagels, Markus, Müller, Thomas J. J., Thiel, Werner R.
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Language:English
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electron transfer
mesoporous materials
optical materials
organic-inorganic hybrid composites
phenothiazine
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cited_by cdi_FETCH-LOGICAL-c3828-d9f3cd09d7649b5cdf47bf0ef30a1217bbc69c2cf01abd99f6a4827e3a1755253
cites cdi_FETCH-LOGICAL-c3828-d9f3cd09d7649b5cdf47bf0ef30a1217bbc69c2cf01abd99f6a4827e3a1755253
container_end_page 2015
container_issue 9
container_start_page 2001
container_title Chemistry, an Asian journal
container_volume 5
creator Zhou, Zhou
Franz, Adam W.
Bay, Sarah
Sarkar, Biprajit
Seifert, Andreas
Yang, Piaoping
Wagener, Alex
Ernst, Stefan
Pagels, Markus
Müller, Thomas J. J.
Thiel, Werner R.
description Triethoxysilyl functionalized phenothiazinyl ureas were synthesized and immobilized by in situ synthesis into mesoporous hybrid materials. The designed precursor molecules influence the structure of the final materials and the intermolecular distance of the phenothiazines. XRD and N2 adsorption measurements indicate the presence of highly ordered two‐dimensional hexagonally structured functional materials, while the incorporation of the organic compounds in the solid materials was proved by means of 13C and 29Si solid state NMR spectroscopy as well as by FT‐IR spectroscopy. Upon oxidation with (NO)BF4 or SbCl5, stable phenothiazine radical cations were generated in the pores of the materials, which was detected by means of UV/Vis, emission, and EPR spectroscopies. Making hybrids: Mesoporous hybrid materials containing covalently grafted phenothiazines have been synthesized by the direct condensation of TEOS and appropriate silicon derivatives. Upon oxidation with (NO)BF4 or SbCl5, stable phenothiazine radical cations are generated in the pores of the materials, which can be detected by means of UV/Vis, emission, and EPR spectroscopies. The electron transfer into and out of these materials has been investigated by cyclic voltammetry.
doi_str_mv 10.1002/asia.201000098
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source Wiley-Blackwell Read & Publish Collection
subjects electron transfer
mesoporous materials
optical materials
organic-inorganic hybrid composites
phenothiazine
title Redox Active Mesoporous Hybrid Materials by In situ Syntheses with Urea-linked Triethoxysilylated Phenothiazines
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