Your search keyword '"Sarma SJ"' showing total 2 results

1. Synthesis of vertex-differentiated icosahedral closo-boranes: polyfunctional scaffolds for targeted drug delivery.

Author

Goswami LN, Houston ZH, Sarma SJ, Li H, Jalisatgi SS, and Hawthorne MF

Subjects

Alkynes chemistry, Azides chemistry, Chemistry Techniques, Synthetic, Click Chemistry, Boranes chemical synthesis, Boranes chemistry, Drug Carriers chemical synthesis, Drug Carriers chemistry

Abstract

We report methods for the synthesis of vertex-differentiated icosahedral closo-boranes. A single B-OH vertex of the icosahedral borane [closo-B(12)(OH)(12)](2-) was derivatized to prepare [closo-B(12)(OR)(OH)(11)](2-) using optimized alkylation conditions and purification procedures. Several representative vertex-differentiated icosahedral closo-boranes were prepared utilizing carbonate ester and azide-alkyne click chemistries on the surface of the closo-B(12)(2-) core.

Published

2012

2. Photochemistry of 1,n-dibenzyloxy-9,10-anthraquinones.

Author

Sarma SJ and Jones PB

Abstract

The photochemistry of a series of 9,10-anthraquinones with multiple benzyloxy substituents was investigated. In polar solvent, the expected Blankespoor oxidative cleavage reaction is the major reaction pathway, but in most cases, several minor products were observed. In nonpolar solvents, the abundance of these minor products increases dramatically. Four types of product were observed with the favored reaction pathway shifting with minor changes in substitution on the anthraquinone. Several types of product require cleavage of the C-O bond on the benzyloxy group and, apparently, follow a photo-Claisen-type mechanism. Others involve the expected 1,5-diradical but do not exhibit the single-electron transfer usually observed in the Blankespoor-type reaction. The results indicate the importance of considering the medium and photoredox behavior in anthraquinone photochemistry.

Published

2010