Calculation of the conformation and vibrational spectrum of β-D-glucose within the framework of the additive model of interatomic interactions

## Abstract The vibrational spectra of __N__‐methylformamide, __N__‐methylacetamide, and acetylglycine __N__‐methylamide were calculated by use of the additive model of interatomic interactions. The rotation angles ϕ,ψ for acetylglycine __N__‐methylamide in the crystalline form were determined by t

## Abstract The PCILO method was used to calculate the intermolecular interaction of London–van der Waals type, hydrogen bonding type, and charge transfer type interactions, respectively. The stabilization energies of the calculated supermolecules are: 0.85 kcal · mole^−1^ for the nonane dimer, 4

## Abstract The PCILO method was used to calculate intermolecular interactions using fixed polarities. In this way our calculations are without any iteration cycle. The investigated supermolecules involve London–van der Waals type, hydrogen bonding type, and charge transfer type interactions, resp

## Abstract Strong delocalized π‐bonds must be approximated by localized π‐bonds within the PCILO framework. From this approximation some difficulties result in the calculation of intermolecular interactions. If only one subsystem involves delocalized π‐bonds the difficulties seem to be not very im