Hybrid organosilane materials and its application in material engineering
Title Alternative:Hybridní organosilanové materiály a jejich aplikace v materiálovém inženýrství
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Date
2021-01-01
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Abstract
Nanomaterials together with nanotechnologies bring everyday challenges to modern
material science and allow scientists worldwide to develop completely new types of unique
materials having extraordinary properties. Although interest in hybrid organic-inorganic
organosilane fibrous nanomaterials is rising, there is no complete review and/or literature
covering and completing the knowledge regarding this highly promissive research area. Todate, only a few solitary research papers have been published regarding this topic. Herein,
organo-mono-silylated and organo-bis-silylated precursors were studied in detail. In addition,
the proposed synthetic strategies together with their outcomes were successfully applied for the
formation of organosilane fibers made of the above-mentioned hybrid precursors. The
techniques of self-assembly, drawing, and in particular electrospinning, are widely discussed in
the theoretical part of this thesis. The electrospinning technique was then directly used for the
formation of organosilane fibers. The results related to this topic are present in the second part
of this thesis. Moreover, they are supported by recently published articles, which are added to
and described in the supplementary part of this habilitation thesis.
The presented findings are closely connected to the application potential and show the
unique and promising prospects of these hybrid organosilane fibers in various fields of modern
material science covering a wide range of industries, including the textile industry, and
particularly everyday life.
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Subject(s)
Organic-inorganic Hybrids, Organosilanes, Sol-gel process, One-Pot Synthesis, Electrospinning, Fibers, Applications