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001     848178
005     20240712084500.0
020 _ _ |a 978-3-95806-329-7
024 7 _ |2 Handle
|a 2128/18890
024 7 _ |2 URN
|a urn:nbn:de:0001-2018061518
024 7 _ |2 ISSN
|a 1866-1793
037 _ _ |a FZJ-2018-03444
041 _ _ |a English
100 1 _ |0 P:(DE-Juel1)156496
|a Cadiz Bedini, Andrew Paolo
|b 0
|e Corresponding author
|g male
|u fzj
245 _ _ |a Sonochemical Synthesis of Silicon Hydride Polymers and Silicon Nanoparticles from Liquid Silanes
|f - 2017-12-15
260 _ _ |a Jülich
|b Forschungszentrum Jülich GmbH Zentralbibliothek, Verlag
|c 2018
300 _ _ |a viii, 132, XVIII S.
336 7 _ |2 DataCite
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336 7 _ |2 ORCID
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336 7 _ |2 BibTeX
|a PHDTHESIS
336 7 _ |0 2
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|a Thesis
336 7 _ |0 PUB:(DE-HGF)11
|2 PUB:(DE-HGF)
|a Dissertation / PhD Thesis
|b phd
|m phd
|s 1528805659_23107
336 7 _ |2 DRIVER
|a doctoralThesis
490 0 _ |a Schriften des Forschungszentrums Jülich Reihe Energie & Umwelt / Energy & Environment
|v 423
502 _ _ |a RWTH Aachen, Diss., 2018
|b Dissertation
|c RWTH Aachen
|d 2018
520 _ _ |a The present thesis is concerned with the use of ultrasound for the treatment of liquid silanes with the objective of fabricating solution-processable inks containing silicon hydride polymers and silicon nanoparticles. Also demonstrated is the subsequent use of the inks to deposit semiconducting hydrogenated amorphous silicon(a-Si:H) thin films and for fabricating passivation layers and thin-film photovoltaicdevices.The sonochemical effects of ultrasound on two lower silanes, namely cyclopentasilane(Si5H10) and trisilane (Si3H8) were studied. The processing of the silanes wascarried out in the inert N2-atmosphere and in solution using cyclooctane (C8H16)as solvent at ambient pressure, and at temperatures between -15–70 $^{\circ}$C. Using cyclopentasilane as monomer molecule it was shown via size exclusion chromatography and optical transmission measurements that sonication of 8–15 wt% solutions results in ring-opening polymerization without the need to use ultraviolet light. In addition, through comparisons to purely thermally treated solutions it was demonstrated that the polymerization process is not initiated pyrolytically due to the “macroscopic” temperature of the solution itself, but rather that microscopic effects associated with acoustic cavitation are most likely responsible for triggering polymer growth. [...]
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