Proton NMR relaxation studies of solid L-alaninamide

Y. L. Wang; P. S. Belton; H. R. Tang

doi:10.1016/S0009-2614(97)00204-2

Proton NMR relaxation studies of solid L-alaninamide

Y. L. Wang, P. S. Belton^*, H. R. Tang

^*Corresponding author for this work

Quadram Institute

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

The molecular dynamics of solid L-alaninamide were studied by proton spin lattice relaxation times in the laboratory and rotating frames, and second moment measurements over temperature range of 100 to 350 K. The methyl group tunnelling was observed below 130 K. The rotational motions of both methyl and amino groups were responsible for spin-lattice relaxation at higher temperature. Three reductions of dipolar second moment were observed over the temperature range. The rotations of methyl and amino groups attributed to the first and second reductions of the second moment at 120 and 240 K. The third reduction above 340 K is due to the molecular motion occurred at crystal melting.

Original language	English
Pages (from-to)	387-392
Number of pages	6
Journal	Chemical Physics Letters
Volume	268
Issue number	5-6
DOIs	https://doi.org/10.1016/S0009-2614(97)00204-2
Publication status	Published - Apr 18 1997
Externally published	Yes

ASJC Scopus Subject Areas

General Physics and Astronomy
Physical and Theoretical Chemistry

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10.1016/S0009-2614(97)00204-2

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title = "Proton NMR relaxation studies of solid L-alaninamide",

abstract = "The molecular dynamics of solid L-alaninamide were studied by proton spin lattice relaxation times in the laboratory and rotating frames, and second moment measurements over temperature range of 100 to 350 K. The methyl group tunnelling was observed below 130 K. The rotational motions of both methyl and amino groups were responsible for spin-lattice relaxation at higher temperature. Three reductions of dipolar second moment were observed over the temperature range. The rotations of methyl and amino groups attributed to the first and second reductions of the second moment at 120 and 240 K. The third reduction above 340 K is due to the molecular motion occurred at crystal melting.",

author = "Wang, {Y. L.} and Belton, {P. S.} and Tang, {H. R.}",

year = "1997",

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journal = "Chemical Physics Letters",

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T1 - Proton NMR relaxation studies of solid L-alaninamide

AU - Wang, Y. L.

AU - Belton, P. S.

AU - Tang, H. R.

PY - 1997/4/18

Y1 - 1997/4/18

N2 - The molecular dynamics of solid L-alaninamide were studied by proton spin lattice relaxation times in the laboratory and rotating frames, and second moment measurements over temperature range of 100 to 350 K. The methyl group tunnelling was observed below 130 K. The rotational motions of both methyl and amino groups were responsible for spin-lattice relaxation at higher temperature. Three reductions of dipolar second moment were observed over the temperature range. The rotations of methyl and amino groups attributed to the first and second reductions of the second moment at 120 and 240 K. The third reduction above 340 K is due to the molecular motion occurred at crystal melting.

AB - The molecular dynamics of solid L-alaninamide were studied by proton spin lattice relaxation times in the laboratory and rotating frames, and second moment measurements over temperature range of 100 to 350 K. The methyl group tunnelling was observed below 130 K. The rotational motions of both methyl and amino groups were responsible for spin-lattice relaxation at higher temperature. Three reductions of dipolar second moment were observed over the temperature range. The rotations of methyl and amino groups attributed to the first and second reductions of the second moment at 120 and 240 K. The third reduction above 340 K is due to the molecular motion occurred at crystal melting.

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U2 - 10.1016/S0009-2614(97)00204-2

DO - 10.1016/S0009-2614(97)00204-2

M3 - Article

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VL - 268

SP - 387

EP - 392

JO - Chemical Physics Letters

JF - Chemical Physics Letters

IS - 5-6

ER -

Proton NMR relaxation studies of solid L-alaninamide

Abstract

ASJC Scopus Subject Areas

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