The interactions between cyanoacrylate type of glue and model compounds for dinitrotoluene (DNT) and trinitrotoluene (TNT) are investigated using mainly spectroscopic techniques. Electrostatic fields emanating from dispersion and dipole interactions are thought to dominate the energy of interaction without any evidence for hydrogen bonding between the glue and any of the substrates. Vibronic spectral data strongly suggests polarization of the vibrational manifolds of the substrates. Careful analysis of nuclear magnetic resonance (nmr) spectral data reveals a good correlation between the nmr chemical shifts and the measured infrared shifts in the glue matrix. This profound observation may have implications for theoretical calculations of nmr chemical shifts.
Reference:
Mostert, F.J., Rwexwana, A. & Tseki, P. 2020. Remarks on the modelling of molecular binding forces in the Glue-DNT interaction. Indian Journal of Chemistry Section A, 5A. http://hdl.handle.net/10204/12277
Mostert, F. J., Rwexwana, A., & Tseki, P. (2020). Remarks on the modelling of molecular binding forces in the Glue-DNT interaction. Indian Journal of Chemistry Section A, 5A, http://hdl.handle.net/10204/12277
Mostert, Frikkie J, A Rwexwana, and PF Tseki "Remarks on the modelling of molecular binding forces in the Glue-DNT interaction." Indian Journal of Chemistry Section A, 5A (2020) http://hdl.handle.net/10204/12277
Mostert FJ, Rwexwana A, Tseki P. Remarks on the modelling of molecular binding forces in the Glue-DNT interaction. Indian Journal of Chemistry Section A, 5A. 2020; http://hdl.handle.net/10204/12277.