Daniel R. Rigsbee scite author profile

The objective of this work was to investigate a common but poorly understood category of crystalline organic substances: isomorphic desolvates. When solvent is lost from a crystal lattice but the lattice retains its three-dimensional order, a lattice is created which is in a high-energy state relative to the original solvate structure. The desolvated lattice can reduce its internal energy by either resorbing solvent or by relaxation processes which increase the packing efficiency of the solid by reducing the unit cell volume. In the following paper, solid-state properties of isomorphic desolvates of cephalexin, cefaclor, erythromycin A, and spirapril hydrochloride hydrates are investigated. The hygroscopicity of the compounds are evaluated using a vacuum moisture balance, and structural relaxation is measured using a combination of X-ray powder diffraction and isothermal microcalorimetry. The study results are explained in terms of Kitaigorodski's close packing principle.

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Structural elucidation of soluble polyelectrolyte-micelle complexes: intra- vs interpolymer association

Xia¹,

Zhang²,

Rigsbee³

et al. 1993

Macromolecules

102

121

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Solid state chemistry of proteins: II. The correlation of storage stability of freeze‐dried human growth hormone (hGH) with structure and dynamics in the glassy solid

Pikal

Rigsbee

Roy

et al. 2008

Journal of Pharmaceutical Sciences

100

115

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Equilibrium binding of mixed micelles to oppositely charged polyelectrolytes

Dubin¹,

Rigsbee²,

Gan³

et al. 1988

Macromolecules

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Daniel R. Rigsbee

Dynamics of Pharmaceutical Amorphous Solids: The Study of Enthalpy Relaxation by Isothermal Microcalorimetry

Formation of Isomorphic Desolvates: Creating a Molecular Vacuum

Structural elucidation of soluble polyelectrolyte-micelle complexes: intra- vs interpolymer association

Solid state chemistry of proteins: II. The correlation of storage stability of freeze‐dried human growth hormone (hGH) with structure and dynamics in the glassy solid

Equilibrium binding of mixed micelles to oppositely charged polyelectrolytes

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