A. M. Cheung scite author profile

A. M. Cheung

3Publications

14Citation Statements Received

0Citation Statements Given

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Bryn Mawr College

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Methyl and t e r t-butyl reorientation and distributions of activation energies in molecular solids. A nuclear spin-relaxation study in 2,4- and 2,5-di-t e r t-butylhydroxybenzene

Beckmann

Cheung

Fisch

et al. 1986

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We have measured proton Zeeman relaxation rates R in the 2,4-and 2,5-isomers of di-tertbutylhydroxybenzene (DTHB) in the solid state. R was measured as a function of temperature T at proton Larmor frequencies of (j)/21T = 8.50,22.5, and 53.0 MHz. The Tranges were from 78 K to just below the melting points of 2,4-and 2,5-DTHB, 385 and 323 K, respectively. The 2,5-DTHB R vs T and (j) can be interpreted qualitatively in terms of three Bloembergen-PurcellPound (BPP) spectral densities, one for each of the three types of rotors in the molecule. The quantitative agreement is poor but a good fit is obtained using either a Davidson-Cole (DC) or Frolich spectral density, still preserving the three rotor types. The implications of this are discussed. The BPP and DC spectral densities fail completely in interpreting R vs T and (j) for 2,4-DTHBwhereas good quantitative fits are obtained using a Frolich spectral density. The distributions of activation energies characterizing the three rotor types are so wide for the Frolich spectral density fit of the 2,4-DTHB data that the individual rotor types lose their identity.

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Global optimization for clusters of flexible molecules—solvent–solute interaction energy calculations

Cheung¹,

Adjiman²,

Kolář

et al. 2002

Fluid Phase Equilibria

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ChemInform Abstract: Methyl and tert‐Butyl Reorientation and Distributions of Activation Energies in Molecular Solids.

Beckmann¹,

Cheung²,

Fisch³

et al. 1986

Chemischer Informationsdienst

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A. M. Cheung

Methyl and t e r t-butyl reorientation and distributions of activation energies in molecular solids. A nuclear spin-relaxation study in 2,4- and 2,5-di-t e r t-butylhydroxybenzene

Global optimization for clusters of flexible molecules—solvent–solute interaction energy calculations

ChemInform Abstract: Methyl and tert‐Butyl Reorientation and Distributions of Activation Energies in Molecular Solids.

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