Your search keyword '"Himmel D"' showing total 3 results

1. Estimation of Lattice Enthalpies of Ionic Liquids Supported by Hirshfeld Analysis

Author

Preiss U., Zaitsau D., Beichel W., Himmel D., Higelin A., Merz K., Caesar N., and Verevkin S.

Subjects

ionic liquids, quantum chemistry, thermodynamics, structure-activity relationships, phase transitions

Abstract

© 2015 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim. New measurements of vaporization enthalpies for 15 1:1 ionic liquids are performed by using a quartz-crystal microbalance. Collection and analysis of 33 available crystal structures of organic salts, which comprise 13 different cations and 12 anions, is performed. Their dissociation lattice enthalpies are calculated by a combination of experimental and quantum chemical quantities and are divided into the relaxation and Coulomb components to give an insight into elusive short-range interaction enthalpies. An empirical equation is developed, based on interaction-specific Hirshfeld surfaces and solvation enthalpies, which enables the estimation of the lattice enthalpy by using only the crystal-structure data. A compound view: A combination of newly collected experimental and computational data delivers the lattice enthalpies of ionic compounds. By using Hirshfeld surfaces and COSMO solvation enthalpies (see figure), a simple equation for the estimation of lattice enthalpies that requires only lattice data can be established. This paves the way to understand short-range interactions in the solid state.

Published

2015

2. Crystal Structure Determination of the Nonclassical 2-Norbornyl Cation.

Author

Scholz, F., Himmel, D., Heinemann, F. W., Schleyer, P. v. R., Meyer, K., and Krossing, I.

Subjects

*NORBORNYL group, *X-ray crystallography, *MOLECULAR structure of cations, *CARBONIUM ions, *ALUMINUM bromide, *QUANTUM chemistry, *PHASE transitions

Abstract

After decades of vituperative debate over the classical or nonclassical structure of the 2-norbornyl cation, the long-sought x-ray crystallographic proof of the bridged, nonclassical geometry of this prototype carbonium ion in the solvated [C7H11]+[Al2Br7]-• CH2Br2 salt has finally been realized. This achievement required exceptional treatment. Crystals obtained by reacting norbornyl bromide with aluminum tribromide in CH2Br2 undergo a reversible order-disorder phase transition at 86 kelvin due to internal 6,1,2-hydride shifts of the 2-norbornyl cation moiety. Cooling with careful annealing gave a suitably ordered phase. Data collection at 40 kelvin and refinement revealed similar molecular structures of three independent 2-norbornyl cations in the unit cell. All three structures agree very well with quantum chemical calculations at the MP2(FC)/def2-QZVPP level of theory. [ABSTRACT FROM AUTHOR]

Published

2013

3. Quantum chemical calculations on a unified pH scale for all phases.

Author

Goll, S. K., Himmel, D., Leito, I., and Krossing, I.

Subjects

*QUANTUM chemistry, *HYDROGEN ions

Abstract

An abstract for the article "Quantum Chemical Calculations on a Unified pH scale for All Phases," by S.K. Goll, D. Himmel, I. Leito and I. Krossing is presented.

Published

2011