Organic Host Encapsulation Effects on Nitrosobenzene Monomer-Dimer Distribution and C-NO Bond Rotation in an Aqueous Solution

Ramkumar Varadharajan; Sarah Ariel Kelley; Vindi M Jayasinghe-Arachchige; Rajeev Prabhakar; Vaidhyanathan Ramamurthy; Silas C Blackstock

doi:10.1021/acsorginorgau.1c00043

Organic Host Encapsulation Effects on Nitrosobenzene Monomer-Dimer Distribution and C-NO Bond Rotation in an Aqueous Solution

ACS Org Inorg Au. 2021 Dec 22;2(2):175-185. doi: 10.1021/acsorginorgau.1c00043. eCollection 2022 Apr 6.

Authors

Ramkumar Varadharajan¹, Sarah Ariel Kelley², Vindi M Jayasinghe-Arachchige¹, Rajeev Prabhakar¹, Vaidhyanathan Ramamurthy¹, Silas C Blackstock²

Affiliations

¹ Department of Chemistry, University of Miami, Coral Gables, Miami, Florida 33146, United States.
² Department of Chemistry and Biochemistry, The University of Alabama, Tuscaloosa, Alabama 35487-0336, United States.

Abstract

The intermolecular (monomer-dimer equilibrium) and intramolecular (C-NO and C-NMe₂ rotations) dynamics of 4-nitrosocumene (1a) and 4-(N,N-dimethylamino)nitrosobenzene (1b), respectively, were found to be controlled by the medium (water) and the host environment (organic capsules and cavitands). The ability of water to shift the equilibrium toward the dimer appears to result from dipolar stabilization of the polar dimer structure and has a resemblance to water's known ability to favor organic cycloaddition reactions. In an aqueous medium, a range of organic hosts selectively include only the nitrosocumene monomer 1a. Encapsulation in the octa acid duplex (OA₂) selects two 1a monomers rather than a dimer structure. Octa acid encapsulation also results in more restricted intramolecular C-N rotations of the guest 1b.