2009
DOI: 10.1016/j.ssnmr.2009.03.001
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Solid-state NMR investigations of Si-29 and N-15 enriched silicon nitride

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Cited by 19 publications
(20 citation statements)
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“…(c) . A strong and sharp peak at −8.53 ppm and weak peaks at −12.4 and −14.87 ppm signify C–Si–N type bonds that arise from the environment present around the silicon in ceraset, similar to previous studies . These sharp peaks were not observed in 29 Si NMR of liquid ceraset (prior to the addition of trimethyl borate), implying an obvious change in Si magnetic surrounding caused by long range coupling, possibly caused by boron based functional group forming either B–C or B–N type chemical bonds.…”
Section: Resultssupporting
confidence: 84%
“…(c) . A strong and sharp peak at −8.53 ppm and weak peaks at −12.4 and −14.87 ppm signify C–Si–N type bonds that arise from the environment present around the silicon in ceraset, similar to previous studies . These sharp peaks were not observed in 29 Si NMR of liquid ceraset (prior to the addition of trimethyl borate), implying an obvious change in Si magnetic surrounding caused by long range coupling, possibly caused by boron based functional group forming either B–C or B–N type chemical bonds.…”
Section: Resultssupporting
confidence: 84%
“…The 29 Si spectra of the polyborosilylcarbodiimide-derived HN1B ceramic contain primarily one heterogeneously broadened Gaussian peak with a 29 Si isotropic chemical shift (d iso ) of~À48 ppm, characteristic of tetrahedrally coordinated Si atoms in SiN 4 tetrahedra. 32 A minor peak at À106 ppm can also be seen in the 29 Si MAS NMR spectrum of HN1B-800 collected at a spinning speed of 14 KHz [ Fig. 2(b)].…”
Section: Resultsmentioning
confidence: 99%
“…However, a fast spin-lattice (T 1 ) relaxation requires molecular motions to modulate the NMR-interaction frequency at a rate comparable to the Larmor frequency; this does not apply to rigid inorganic materials, where minute paramagnetic impurities are often mainly responsible for driving relaxation [15,154,155]. Similar misbeliefs apply for 1 H: the very rapid relaxation frequently observed from organic molecules stem predominantly from molecular segments that exhibit fast internal rotations (such as CH 3 /NH 3 groups) coupled with 1 H spin diffusion.…”
Section: T 1 Relaxation and Pulse Delaysmentioning
confidence: 99%