R
Rajesh S. Bhosale
Researcher at Indian Institute of Chemical Technology
Publications - 86
Citations - 1785
Rajesh S. Bhosale is an academic researcher from Indian Institute of Chemical Technology. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 21, co-authored 71 publications receiving 1555 citations. Previous affiliations of Rajesh S. Bhosale include University of Geneva & Massachusetts Institute of Technology.
Papers
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Journal ArticleDOI
An efficient protocol for the synthesis of quinoxaline derivatives at room temperature using molecular iodine as the catalyst
Rajesh S. Bhosale,Swapnil R. Sarda,Suresh S. Ardhapure,Wamanrao N. Jadhav,Sudhakar R. Bhusare,Rajendra P. Pawar +5 more
TL;DR: The use of molecular iodine as the catalyst for a one-pot synthesis of quinoxaline derivatives at room temperature was reported in this article, where it was shown that molecular iodine can be used as a catalyst for any onepot synthesis.
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Supramolecular n/p-heterojunction photosystems with oriented multicolored antiparallel redox gradients (OMARG-SHJs).
TL;DR: This tutorial review summarized recent progress made toward the construction of OMARG-SHJs, a conceptually innovative twist added to a timely topic that should appeal to the synthetic organic, supramolecular, biological, physical, analytical and materials chemist as well as to the expert in energy and environmental sciences.
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Supramolecular n/p-Heterojunction Photosystems with Antiparallel Redox Gradients in Electron- and Hole-Transporting Pathways
TL;DR: The first OMARG-SHJs with two-component redox gradients in both the electron- and hole-transporting pathways are reported, showing the presence of both gradients is shown to be essential for achieving photoinduced charge separation over very long distances.
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Molecular Iodine: An Efficient Catalyst for the Synthesis of Tetrahydrobenzo[b]pyrans
Rajesh S. Bhosale,Chandrakant V. Magar,Kuldeep S. Solanke,Sandeep B. Mane,Sunil Choudhary,Rajendra P. Pawar +5 more
TL;DR: In this article, an iodine/DMSO system was introduced as an excellent catalyst in three-component coupling reactions of tetrahydrobenzo[b]pyran synthesis.
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Versatile 2,7-Substituted Pyrene Synthons for the Synthesis of Pyrene-Fused Azaacenes
TL;DR: A new synthetic route to prepare a series of versatile 2,7-substituted pyrene synthons for the synthesis of pyrene-fused azaacenes is described.