Configurational relaxation of “Van Der Waals complexes” in solution

The effects of relative orientation on collision and reaction dynamics can be examined by characterizing the unimolecular decay of van der Waals complexes. Most commonly, decomposition is initiated by exciting one of the monomers within a complex, and the relative orientation is defined by the zero-

The solvation and structure of vdW complexes formed in supersonic free-jet expansions of perylene with rare gas atoms and organic "solvent" molecules, using helium as carrier gas, have been investigated. The complexes were probed and analysed by combining laser-induced fluorescence spectroscopy with

The van der Waals equation of state for imperfect gases is applied to solutions of macromolecules, especially to explain the fluid–fluid phase transition in protein solutions, a phenomenon of much interest in relation to protein crystallization. The van der Waals __b__ parameter corresponds to the t

Van der Waals complexes of the bichromophore spirobifluorene with argon, nitrogen, water, methanol, and acetonitrile were studied in a supersonic jet. The 1: 1 complexes have two origin transitions which are shifted to the red and to the blue of the bare bichromophore origin. These spectral shifts a

## Abstract The __T__Δ__S__^0^ term has been estimated for various types of van der Waals molecules and its importance for the stability predictions has been demonstrated. With hydrogen‐bonded complexes the absolute values of Δ__H__^0^ and __T__Δ__S__~0~ are comparable at 289°K. With true van der W