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On–Off Infrared Absorption of the S═O Vibrational Probe of Dimethyl Sulfoxide

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dc.contributor.author Chakrabarty, Suranjana
dc.contributor.author Deshmukh, Samadhan
dc.contributor.author Barman, Anjan
dc.contributor.author Bagchi, Sayan
dc.contributor.author Ghosh, Anup
dc.date.accessioned 2023-10-10T06:32:49Z
dc.date.available 2023-10-10T06:32:49Z
dc.date.issued 2022-06-08
dc.identifier.other https://doi.org/10.1021/acs.jpcb.1c10558
dc.identifier.uri https://hdl.handle.net/20.500.12252/6255
dc.description.abstract Dimethyl sulfoxide (DMSO), a polar solvent molecule, is used in a wide range of therapeutic and pharmacological applications. Different intermolecular interactions, such as dimerization and hydrogen bonding with water, are crucial to understanding the role of DMSO in applications. Herein, we study DMSO in various solvation environments to decipher the environment-dependent dimerization and hydrogen-bonding propensity. We use a combination of infrared spectroscopy, quantum mechanical calculations, and molecular dynamics simulations to reach our conclusions. Although DMSO can exist in a dynamic equilibrium between monomers and dimers, our results show that the relative intensity of the S═O stretch and the CH3 rocking modes is a spectroscopic indicator of the extent of DMSO dimerization in solution. The dimerization (self-association) is seen to be maximum in neat DMSO. When dissolved in different solvents, the dimerization propensity decreases with increasing solvent polarity. In the presence of a protic solvent, such as water, DMSO forms a hydrogen bond with the solvent molecules, thereby reducing the extent of dimerization. Further, we estimate the hydrogen-bond occupancy of DMSO. Our results show that DMSO predominantly exists as doubly hydrogen-bonded in water. en
dc.format.extent 8 en
dc.language.iso en_US en
dc.publisher The Journal of Physical Chemistry B en
dc.title On–Off Infrared Absorption of the S═O Vibrational Probe of Dimethyl Sulfoxide en
dc.type Article en
local.division.division Physical and Materials Chemistry Division en
dc.description.university -- en


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