Formation of Si-O-N networks from silsesquiazanes

Hirotaka Yokota; Noriko Imanari; Yoshiyuki Sugahara

doi:10.1002/aoc.1643

Formation of Si-O-N networks from silsesquiazanes

Hirotaka Yokota, Noriko Imanari, Yoshiyuki Sugahara^*

^*この研究の対応する著者

先進理工学部

研究成果: Article › 査読

4 被引用数 (Scopus)

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Silsesquiazanes bearing different groups [RSi(NH)_1.5] _n (R = C₁₂H₂₅, Ph, H) were hydrolyzed and the resulting products were characterized. [C₁₂H₂₅Si(NH) _1.5]_n was hydrolyzed by heating in an autoclave with water at 120 °C for 16 h. [PhSi(NH)_1.5]_n was hydrolyzed by heating with water at 50 ?C for 16 h. [HSi(NH)_1.5]_n was dispersed in water at room temperature to induce hydrolysis. In the cases of [C₁₂H₂₅Si(NH)_1.5]_n and [PhSi(NH)_1.5]_n, IR analysis showed that Si-NH-Si bonds remained and that terminal Si-NH₂ bonds in silsesquiazane were preferentially hydrolyzed to form Si-OH bonds or Si-O-Si bonds. Solid-state 29Si CP/MAS NMR analysis revealed the formation of a Si-O-N network containing various Si environments. All the Si-H and Si-N bonds in [HSi(NH) _1.5]_n, on the other hand, were converted into Si-O bonds. These results reveal that Si-O-N networks can be formed from silsesquiazanes bearing dodecyl and phenyl groups under relatively moderate conditions.

本文言語	English
ページ（範囲）	608-611
ページ数	4
ジャーナル	Applied Organometallic Chemistry
巻	24
号	8
DOI	https://doi.org/10.1002/aoc.1643
出版ステータス	Published - 2010 8月 1

ASJC Scopus subject areas

化学 (全般)
無機化学

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title = "Formation of Si-O-N networks from silsesquiazanes",

abstract = "Silsesquiazanes bearing different groups [RSi(NH)1.5] n (R = C12H25, Ph, H) were hydrolyzed and the resulting products were characterized. [C12H25Si(NH) 1.5]n was hydrolyzed by heating in an autoclave with water at 120 °C for 16 h. [PhSi(NH)1.5]n was hydrolyzed by heating with water at 50 ?C for 16 h. [HSi(NH)1.5]n was dispersed in water at room temperature to induce hydrolysis. In the cases of [C12H25Si(NH)1.5]n and [PhSi(NH)1.5]n, IR analysis showed that Si-NH-Si bonds remained and that terminal Si-NH2 bonds in silsesquiazane were preferentially hydrolyzed to form Si-OH bonds or Si-O-Si bonds. Solid-state 29Si CP/MAS NMR analysis revealed the formation of a Si-O-N network containing various Si environments. All the Si-H and Si-N bonds in [HSi(NH) 1.5]n, on the other hand, were converted into Si-O bonds. These results reveal that Si-O-N networks can be formed from silsesquiazanes bearing dodecyl and phenyl groups under relatively moderate conditions.",

keywords = "Hydrolysis, Polysilazane, Silsesquioxane",

author = "Hirotaka Yokota and Noriko Imanari and Yoshiyuki Sugahara",

year = "2010",

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doi = "10.1002/aoc.1643",

language = "English",

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journal = "Applied Organometallic Chemistry",

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TY - JOUR

T1 - Formation of Si-O-N networks from silsesquiazanes

AU - Yokota, Hirotaka

AU - Imanari, Noriko

AU - Sugahara, Yoshiyuki

PY - 2010/8/1

Y1 - 2010/8/1

N2 - Silsesquiazanes bearing different groups [RSi(NH)1.5] n (R = C12H25, Ph, H) were hydrolyzed and the resulting products were characterized. [C12H25Si(NH) 1.5]n was hydrolyzed by heating in an autoclave with water at 120 °C for 16 h. [PhSi(NH)1.5]n was hydrolyzed by heating with water at 50 ?C for 16 h. [HSi(NH)1.5]n was dispersed in water at room temperature to induce hydrolysis. In the cases of [C12H25Si(NH)1.5]n and [PhSi(NH)1.5]n, IR analysis showed that Si-NH-Si bonds remained and that terminal Si-NH2 bonds in silsesquiazane were preferentially hydrolyzed to form Si-OH bonds or Si-O-Si bonds. Solid-state 29Si CP/MAS NMR analysis revealed the formation of a Si-O-N network containing various Si environments. All the Si-H and Si-N bonds in [HSi(NH) 1.5]n, on the other hand, were converted into Si-O bonds. These results reveal that Si-O-N networks can be formed from silsesquiazanes bearing dodecyl and phenyl groups under relatively moderate conditions.

AB - Silsesquiazanes bearing different groups [RSi(NH)1.5] n (R = C12H25, Ph, H) were hydrolyzed and the resulting products were characterized. [C12H25Si(NH) 1.5]n was hydrolyzed by heating in an autoclave with water at 120 °C for 16 h. [PhSi(NH)1.5]n was hydrolyzed by heating with water at 50 ?C for 16 h. [HSi(NH)1.5]n was dispersed in water at room temperature to induce hydrolysis. In the cases of [C12H25Si(NH)1.5]n and [PhSi(NH)1.5]n, IR analysis showed that Si-NH-Si bonds remained and that terminal Si-NH2 bonds in silsesquiazane were preferentially hydrolyzed to form Si-OH bonds or Si-O-Si bonds. Solid-state 29Si CP/MAS NMR analysis revealed the formation of a Si-O-N network containing various Si environments. All the Si-H and Si-N bonds in [HSi(NH) 1.5]n, on the other hand, were converted into Si-O bonds. These results reveal that Si-O-N networks can be formed from silsesquiazanes bearing dodecyl and phenyl groups under relatively moderate conditions.

KW - Hydrolysis

KW - Polysilazane

KW - Silsesquioxane

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Formation of Si-O-N networks from silsesquiazanes

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