Abstract
The X-ray diffraction studies revealed disorder of a trichloroacetic acid–N-methylurea complex crystal structure, connected with a proton transfer via O–H···O hydrogen bond. The observed structure corresponds to a co-existence of ionic (salt) and neutral (co-crystal) forms of the complex in the solid state in ratio 3:1, respectively. The geometrical analysis based on ab initio and density functional theory methods combined with the experimental research indicated that two different N-methylurea molecular conformations, defined by CNCN torsion angle, correspond to the neutral and the ionic form of the complex, respectively. The conformational changes seem to be connected with stabilization of the ionic structure after a proton transfer, as according to theoretical calculations this form of the complex (the ionic one) was unstable in the gas phase. A particular attention was focused on a system of a double intermolecular hydrogen bonds, O–H···O and N–H···O which join molecules into the title complex. The analysis of these interactions performed in terms of their geometry, energetic and topological electron density properties let for their classification into strong and medium strength hydrogen bonds. It was also found that the antibonding hydrogen bonding donor orbital occupation corresponded to the stabilization energy resulting from charge transfer in hydrogen bonds. Hence, it is postulated as a possible indicator of interaction strength.
Highlights
Non-covalent interactions have received much interest due to their importance in stabilizing of the molecular arrangement crystal structure in the solid state [1,2,3]
All cases of strong and very strong hydrogen bonds have been classified into charge assisted hydrogen bond (CAHB) and resonance assisted hydrogen bond (RAHB) [13] which have been widely studied [14,15,16,17,18,19,20,21,22,23]
The X-ray studies indicated coexistence of two different forms of the two component crystal: the ionic one corresponding to a salt and the neutral one corresponding to co-crystal structure, respectively
Summary
Non-covalent interactions have received much interest due to their importance in stabilizing of the molecular arrangement crystal structure in the solid state [1,2,3]. On supramolecular chemistry basis proton donors (organic acid) and acceptors (organic bases) are promising agents to generate stable multi-component hydrogen bonded systems with possible proton transfer via salt bridge [30,31,32,33,34] Against this background, the results of a co-crystallization trichloroacetic acid with N-methylurea are presented. Molecular structure in the solid state compared with a gas phase one obtained from quantum-chemical methods may be a source of information about these interactions in the crystal space [53, 54]. For these reasons a part of this study was focused on theoretical ab initio and density functional theory (DFT) calculations which are combined with X-ray results. The Natural Bond Orbital method (NBO program, implemented in Gaussian-03 package) [65] was employed to study charge transfer energy associated with the intermolecular interactions
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