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Short-range ordering in amorphous Si sub 3 B sub 3 N sub 7 as determined by multinuclear NMR spectroscopy
The ternary and quaternary amorphous networks of silicon boronitride and borocarbonitride are high-performance ceramics with extraordinary mechanical and thermal properties, e.g. excellent high temperature resistance. Even their resistance to oxidation, usually a drawback for non-oxide ceramics, is...
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| Published in: | Chemistry of materials 2000-08, Vol.12 (8), p.2341-2346 |
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| Main Authors: | , , |
| Format: | Article |
| Language: | English |
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| container_end_page | 2346 |
| container_issue | 8 |
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| container_title | Chemistry of materials |
| container_volume | 12 |
| creator | Muller, U Hoffbauer, W Jansen, M |
| description | The ternary and quaternary amorphous networks of silicon boronitride and borocarbonitride are high-performance ceramics with extraordinary mechanical and thermal properties, e.g. excellent high temperature resistance. Even their resistance to oxidation, usually a drawback for non-oxide ceramics, is the best known so far. IR and exp 29 Si, exp 11 B, and exp 15 N NMR-spectroscopic data of exp 15 N-enriched samples of hexamethyl-disilazane, 1,1,1-trichloro-3,3,3- trimethyldisilazane (TTDS), 1,1,1-trichloro-3,3,3-trimethyl-disilazane (TTDS), ((trichlorosilyl)amino)dichloroborane (TADB), of the poly(borosilazane) Si sub 3 B sub 3 N sub 7.9 H sub 4.4 Cl sub 0.8 O sub 0.6 , and of the ceramical network Si sub 3 B sub 3 N sub 7 are given. The exp 15 N-substituted samples have been prepared using novel synthetic routes. The NMR data show that in the poly(borosilazane) Si sub 3 B sub 3 N sub 7.9 H sub 4.4 Cl sub 0.8 O sub 0.6 silicon is coordinated tetrahedrally by nitrogen in the first coordination sphere and boron is coordinated trigonally planar by nitrogen atoms. In this partially polymerized network, a small fraction of the nitrogen coordination is blocked by hydrogen, as verified by IR spectroscopy. Calcination of the poly(borosilazane) results in the fully polymerized network Si sub 3 B sub 3 N sub 7 . The local coordination of silicon and boron remains virtually unchanged. As confirmed by comparison of the NMR data of Si sub 3 B sub 3 N sub 7 with those of crystalline references (Si sub 3 N sub 4 , BN), nitrogen is now fully coordinated by three silicon and/or boron atoms. |
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Even their resistance to oxidation, usually a drawback for non-oxide ceramics, is the best known so far. IR and exp 29 Si, exp 11 B, and exp 15 N NMR-spectroscopic data of exp 15 N-enriched samples of hexamethyl-disilazane, 1,1,1-trichloro-3,3,3- trimethyldisilazane (TTDS), 1,1,1-trichloro-3,3,3-trimethyl-disilazane (TTDS), ((trichlorosilyl)amino)dichloroborane (TADB), of the poly(borosilazane) Si sub 3 B sub 3 N sub 7.9 H sub 4.4 Cl sub 0.8 O sub 0.6 , and of the ceramical network Si sub 3 B sub 3 N sub 7 are given. The exp 15 N-substituted samples have been prepared using novel synthetic routes. The NMR data show that in the poly(borosilazane) Si sub 3 B sub 3 N sub 7.9 H sub 4.4 Cl sub 0.8 O sub 0.6 silicon is coordinated tetrahedrally by nitrogen in the first coordination sphere and boron is coordinated trigonally planar by nitrogen atoms. In this partially polymerized network, a small fraction of the nitrogen coordination is blocked by hydrogen, as verified by IR spectroscopy. Calcination of the poly(borosilazane) results in the fully polymerized network Si sub 3 B sub 3 N sub 7 . The local coordination of silicon and boron remains virtually unchanged. As confirmed by comparison of the NMR data of Si sub 3 B sub 3 N sub 7 with those of crystalline references (Si sub 3 N sub 4 , BN), nitrogen is now fully coordinated by three silicon and/or boron atoms.</description><identifier>ISSN: 0897-4756</identifier><language>eng</language><ispartof>Chemistry of materials, 2000-08, Vol.12 (8), p.2341-2346</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,777,781</link.rule.ids></links><search><creatorcontrib>Muller, U</creatorcontrib><creatorcontrib>Hoffbauer, W</creatorcontrib><creatorcontrib>Jansen, M</creatorcontrib><title>Short-range ordering in amorphous Si sub 3 B sub 3 N sub 7 as determined by multinuclear NMR spectroscopy</title><title>Chemistry of materials</title><description>The ternary and quaternary amorphous networks of silicon boronitride and borocarbonitride are high-performance ceramics with extraordinary mechanical and thermal properties, e.g. excellent high temperature resistance. Even their resistance to oxidation, usually a drawback for non-oxide ceramics, is the best known so far. IR and exp 29 Si, exp 11 B, and exp 15 N NMR-spectroscopic data of exp 15 N-enriched samples of hexamethyl-disilazane, 1,1,1-trichloro-3,3,3- trimethyldisilazane (TTDS), 1,1,1-trichloro-3,3,3-trimethyl-disilazane (TTDS), ((trichlorosilyl)amino)dichloroborane (TADB), of the poly(borosilazane) Si sub 3 B sub 3 N sub 7.9 H sub 4.4 Cl sub 0.8 O sub 0.6 , and of the ceramical network Si sub 3 B sub 3 N sub 7 are given. The exp 15 N-substituted samples have been prepared using novel synthetic routes. The NMR data show that in the poly(borosilazane) Si sub 3 B sub 3 N sub 7.9 H sub 4.4 Cl sub 0.8 O sub 0.6 silicon is coordinated tetrahedrally by nitrogen in the first coordination sphere and boron is coordinated trigonally planar by nitrogen atoms. In this partially polymerized network, a small fraction of the nitrogen coordination is blocked by hydrogen, as verified by IR spectroscopy. Calcination of the poly(borosilazane) results in the fully polymerized network Si sub 3 B sub 3 N sub 7 . The local coordination of silicon and boron remains virtually unchanged. 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Even their resistance to oxidation, usually a drawback for non-oxide ceramics, is the best known so far. IR and exp 29 Si, exp 11 B, and exp 15 N NMR-spectroscopic data of exp 15 N-enriched samples of hexamethyl-disilazane, 1,1,1-trichloro-3,3,3- trimethyldisilazane (TTDS), 1,1,1-trichloro-3,3,3-trimethyl-disilazane (TTDS), ((trichlorosilyl)amino)dichloroborane (TADB), of the poly(borosilazane) Si sub 3 B sub 3 N sub 7.9 H sub 4.4 Cl sub 0.8 O sub 0.6 , and of the ceramical network Si sub 3 B sub 3 N sub 7 are given. The exp 15 N-substituted samples have been prepared using novel synthetic routes. The NMR data show that in the poly(borosilazane) Si sub 3 B sub 3 N sub 7.9 H sub 4.4 Cl sub 0.8 O sub 0.6 silicon is coordinated tetrahedrally by nitrogen in the first coordination sphere and boron is coordinated trigonally planar by nitrogen atoms. In this partially polymerized network, a small fraction of the nitrogen coordination is blocked by hydrogen, as verified by IR spectroscopy. Calcination of the poly(borosilazane) results in the fully polymerized network Si sub 3 B sub 3 N sub 7 . The local coordination of silicon and boron remains virtually unchanged. As confirmed by comparison of the NMR data of Si sub 3 B sub 3 N sub 7 with those of crystalline references (Si sub 3 N sub 4 , BN), nitrogen is now fully coordinated by three silicon and/or boron atoms.</abstract></addata></record> |
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| ispartof | Chemistry of materials, 2000-08, Vol.12 (8), p.2341-2346 |
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| source | American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list) |
| title | Short-range ordering in amorphous Si sub 3 B sub 3 N sub 7 as determined by multinuclear NMR spectroscopy |
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