Bigyan Ranjan Jali
chemistry
Veer Surendra Sai University of Technology
India
Biography
Dr. Bigyan Ranjan Jali is currently working as a professor in the Department of chemistry, Veer Surendra Sai University of Technology , India. His research interests includes Supramolecular Chemistry: Host-guest inclusion chemistry including the formation of novel crystalline solids, co-crystals, salts and clathrates. Crystal Engineering: Design, synthesis, crystal engineering and application of network solids such as pharmaceutical co-crystals and their materials applications. Co-ordination Chemistry: Metal-organic frameworks with intriguing properties and potential applications. Physical Chemistry: Developing simple fluorescent and calorimetric chemo sensors for biologically important anions and cations as well as design and synthesis of new biological active molecules and study of their protein interaction as well as cytotoxicity.. He /she is serving as an editorial member and reviewer of several international reputed journals. Dr. Bigyan Ranjan Jali is the member of many international affiliations. He/ She has successfully completed his Administrative responsibilities. He /she has authored of many research articles/books related to Supramolecular Chemistry: Host-guest inclusion chemistry including the formation of novel crystalline solids, co-crystals, salts and clathrates. Crystal Engineering: Design, synthesis, crystal engineering and application of network solids such as pharmaceutical co-crystals and their materials applications. Co-ordination Chemistry: Metal-organic frameworks with intriguing properties and potential applications. Physical Chemistry: Developing simple fluorescent and calorimetric chemo sensors for biologically important anions and cations as well as design and synthesis of new biological active molecules and study of their protein interaction as well as cytotoxicity..
Research Interest
Supramolecular Chemistry: Host-guest inclusion chemistry including the formation of novel crystalline solids, co-crystals, salts and clathrates. Crystal Engineering: Design, synthesis, crystal engineering and application of network solids such as pharmaceutical co-crystals and their materials applications. Co-ordination Chemistry: Metal-organic frameworks with intriguing properties and potential applications. Physical Chemistry: Developing simple fluorescent and calorimetric chemo sensors for biologically important anions and cations as well as design and synthesis of new biological active molecules and study of their protein interaction as well as cytotoxicity.
Publications
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Iron(II) and manganese(II) complexes of 2-{2-(3-carboxypyridin-2-yl)disulfanyl} pyridine-3-carboxylic acid through C-S bond cleavage. W.M. Singh, B. R. Jali, J. B. Baruah, Journal of Chemical Crystallography (2012), 42, 775-782.
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Synthesis, characterization, and catalytic activity of zinc carboxylate complexes of 2,3-pyridine dicarboxylic acid and (3-oxo-2,3-dihydro-benzo[1,4]oxazin-4-yl)acetic acid. W. M. Singh, B. R. Jali, B. Das, J. B. Baruah, Inorganica Chimica Acta (2011), 372, 37-41.
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2,4-Diamino-6-phenyl-1,3,5-triazine a systematic cocrystal former with dicarboxylic acids. B. R. Jali, J. B. Baruah, Journal of Chemical Crystallography (2013), 43, 531-537.
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Linear to spiral coordination polymers of 1,4-naphthalene di-(2-oxyacetate) of cobalt, manganese and copper. B. R. Jali, J. B. Baruah, Inorganic Chemistry Communications (2011), 14, 1440-1443.
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Selectivity in changes of fluorescence emission of 1,4-naphthoquinone derivatives by manganese and cadmium ions. B. R. Jali, K. Masud, J.B. Baruah, Polyhedron (2013), 51, 75-81.
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Polymorphs of aromatic thiolato 1, 2 or 1,4-naphthoquinones. B. R. Jali, W.M. Singh, J. B. Baruah, CrystEngComm (2011), 13, 763-767.
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Polymorphs and solvates of 2-(1,4-dihydro-1,4-dioxonaphthalen-3-ylthio)benzoic acid. B. R. Jali, J. B. Baruah, Crystal Growth and Design (2012), 12, 3114-3122.
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Substrate selective protein binding of isomers of aromatic carboxylic acid or pyridine tethered-naphthoquinone and their cytotoxicity. B. R. Jali, Y.Kuang, N. Neamati, J. B. Baruah, Chemico-Biological Interactions, (2014), 214, 10-17.
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Recognition of bromide ion by protonated form of 2-(1H-imidazol-2- ylthio)-3-methylnaphthalene-1,4-dione. B.R.Jali, J.B.Baruah, Chempluschem, (2013), 78, 589-597.
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Fluorescence properties, aluminum ion selective emission changes and self-assemblies of positional isomers of 4-(hydroxyphenylthio) naphthalene-1,2-diones. B. R. Jali, J. B. Baruah, Dyes and Pigments, (2014), 110, 56-66.
