TIFR
Department of Chemical Sciences
School of Natural Sciences

December 13, 2017 at 2.30 pm in AG-66

Title

Vibrational Anharmonicity and IR Spectra of Hydrogen Bonded Clusters

Abstract :

Structure of hydrate proton is typically classified into Eigen (H3O+) and Zundel (H5O2+) forms. While this is a textbook knowledge, it remains very challenging to keep track of their vibrational signatures owing to the strong vibrational coupling. We have developed several computational scheme to reveal the vibrational couplings (from strong to weak) with the hope to link vibrational spectra and the structure of these clusters. Gas-phase ionic spectra collected over the last two decades have provided plenty of experimental vibrational spectra that allow us to examine the vibrational motion of proton in H-bonded cations. In this talk, we will present our recent systematic theoretical studies both different types of Zundel1,2 and H3O+ under different solvation environments3,4. Our theoretical studies engage ab initio treatment on a selected set of quantum degrees of freedom and treat their vibrational anharmonicity/coupling explicitly. If time permits, we will also access the performance of a few approximate treatments on vibrational coupling/anharmonicity to treat larger hydrogen-bonded molecular clusters5

 

References 

 

1.J.A. Tan and J.-L. Kuo. J. Phys. Chem. A., 119, 11320 (2015)

2.J.A. Tan and J.-L. Kuo. Phys. Chem. Chem. Phys., 18, 14531 (2016)

3.J-W Li, M. Morita, T. Takahashi, and J-L Kuo, J. Phys. Chem. A, 119, 10887 (2015)

4.J. Tan, J-W Li, C-c Chiu, H. Huynh, H-Y Liao, and J-L Kuo, Phys. Chem. Chem. Phys., 18, 30721 (2016)

 

5.K-L Ho, L-Y Lee, M. Katada, A. Fujii, and J-L Kuo, Phys. Chem. Chem. Phys., 18, 30498 (2016)