Triangular Halogen Trimers. A DFT Study of the Structure, Cooperativity, and Vibrational Properties
- 1 December 2005
- journal article
- research article
- Published by American Chemical Society (ACS) in The Journal of Physical Chemistry A
- Vol. 109 (51) , 11956-11961
- https://doi.org/10.1021/jp0547360
Abstract
Triangular halogen trimers (RX)(3), where X = Br, I and R represents H, H3C, H2FC, HF2C, F3C, CH2=CH, CH equivalent to C, and Ph, have been investigated using the density functional theory in the Perdew, Burke, and Ernzerhof method. We report herein the optimized geometries of the stable structures, their vibrational frequencies, and binding energies with the two- and three-body terms. All trimer structures possess a cyclic array of halogen atoms in the type II approach by virtue of the nonspherical atomic charge distribution around the halogens. The (BrBr)-Br-... interactions in trimers are very weak, whereas the (II)-I-... interactions in trimers are relatively stronger. While all bromine trimers and most of iodine trimers are predicted to be noncooperative, three of iodine trimers show weak cooperativity. The analysis of vibration modes reveals that all halogen trimers exhibit no especially remarkable frequency shifts. It is also shown that the electrostatic contribution plays a major role in the halogen(...)halogen interactions in halogen trimers. In contrast to bromine trimers, the relative contribution of charge-transfer component to the halogen(...)halogen interactions becomes more important for iodine trimers.This publication has 38 references indexed in Scilit:
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