Richard E. Boehm
Affiliations: | Chemistry | Georgetown University, Washington, DC |
Google:
"Richard Boehm"Mean distance: (not calculated yet)
BETA: Related publications
See more...
Publications
|
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
| Boehm RE. (1999) Steady-state permeation rate of homopolymer chain molecules through a pore in a barrier Macromolecules. 32: 7645-7654 |
| Boehm RE, Martire DE. (1994) Theory of homopolymer retention in the weak adsorption limit Journal of Liquid Chromatography. 17: 3145-3177 |
| Boehm RE, Martire DE. (1994) Theory of liquid chromatographic retention and solute-transfer thermodynamics using the Bethe-Guggenheim quasi-chemical approach Journal of Physical Chemistry. 98: 1317-1327 |
| Boehm RE, Martire DE. (1992) Adsorption of square and rectangular plate-like molecules on a planar surface Liquid Crystals. 12: 273-296 |
| Boehm RE, Martire DE. (1989) Theory of homopolymer and oligomer separation and its application to gradient elution liquid chromatography Analytical Chemistry. 61: 471-482 |
| Boehm RE, Martire DE, Armstrong DW. (1988) Theoretical considerations concerning the separation of enantiomeric solutes by liquid chromatography. Analytical Chemistry. 60: 522-8 |
| Boehm RE, Martire DE. (1987) A theory of association in fluids composed of linear bifunctional molecules capable of hydrogen bonding Journal of Physical Chemistry. 91: 5718-5725 |
| Martire DE, Boehm RE. (1987) Unified molecular theory of chromatography and its application to supercritical fluid mobile phases. 1. Fluid-liquid (absorption) chromatography Journal of Physical Chemistry. 91: 2433-2446 |
| Boehm RE, Martire DE, Madhusudana NV. (1986) A statistical thermodynamic theory of thermotropic linear main-chain polymeric liquid crystals Macromolecules. 19: 2329-2341 |
| Boehm RE, Martire DE. (1986) Statistical thermodynamic theory of the collapse transition of thermotropic, main-chain mesogenic polymer molecules in infinitely dilute solution Macromolecules. 19: 89-97 |