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S. B.  Umbarkar, Kotbagi, T. V., Biradar, A. V., Pasricha, R., Chanale, J., Dongare, M. K., Mamede, A. - S., Lancelot, C., and Payen, E., ?Acetalization of glycerol using mesoporous MoO3/SiO2 solid acid catalyst?, Journal of Molecular Catalysis A-Chemical, vol. 310, no. 1-2, pp. 150-158, 2009.\par \par A.  Khan, Bhide, A. J., and Gadre, R. V., ?Mannitol production from glycerol by resting cells of Candida magnoliae?, Bioresource Technology, vol. 100, no. 20, pp. 4911-4913, 2009.\par \par R. B.  Mane, Hengne, A. M., Ghalwadkar, A. A., Vijayanand, S., Mohite, P. H., Potdar, H. S., and Rode, C. V., ?Cu:Al Nano catalyst for selective hydrogenolysis of glycerol to 1,2-propanediol?, Catalysis Letters, vol. 135, no. 1-2, pp. 141-147, 2010.\par \par T.  Montini, Singh, R., Das, P., Lorenzut, B., Bertero, N., Riello, P., Benedetti, A., Giambastiani, G., Bianchini, C., Zinoviev, S., Miertus, S., and Fornasiero, P., ?Renewable H-2 from glycerol steam reforming: effect of La2O3 and CeO2 addition to Pt/Al2O3 catalysts.?, Chemsuschem, vol. 3, no. 5, pp. 619-628, 2010.\par \par M. K.  Munshi, Gade, S. M., Mane, M. V., Mishra, D., Pal, S., Vanka, K., Rane, V. H., and Kelkar, A. A., ?1,8-Diazabicyclo[5.4.0]undec-7-ene (DBU): a highly efficient catalyst in glycerol carbonate synthesis?, Journal of Molecular Catalysis A-Chemical, vol. 391, pp. 144-149, 2014.\par \par R. B.  Mane, Patil, S., Shirai, M., Rayalu, S. S., and Rode, C. V., ?Influence of carbon based supports on selectivity behavior of diols and propanol in Ru catalyzed glycerol hydrogenolysis?, Applied Catalysis B: Environmental, vol. 204, 2017.\par \par P.  Gogoi, Kanna, N., Begum, P., Deka, R. C., Satyanarayana, C. V. V., and Raja, T., ?Controlling and stabilization of Ru nanoparticles by tuning the nitrogen content of the support for enhanced H-2 production through aqueous-phase reforming of glycerol?, ACS Catalysis, vol. 10, no. 4, pp. 2489-2507, 2020.\par \par S.  Magar, Mohanraj, G. T., Jana, S. Kumar, and , ?Synthesis and characterization of supported heteropoly acid: efficient solid acid catalyst for glycerol esterification to produce biofuel additives?, Inorganic and Nano-Metal Chemistry, vol. 50, no. 11, pp. 1157-1165, 2020.\par \par P.  Gogoi, Chilukuri, S., and Thirumalaiswamy, R., ?Active K-OMS-2 supported catalyst for hydrogenolysis of glycerol?, ChemistrySelect, vol. 6, no. 33, pp. 8700-8708, 2021.\par \par S.  Bhowmik and Darbha, S., ?Advances in solid catalysts for selective hydrogenolysis of glycerol to 1,3-propanediol?, Catalysis Reviews-Science and Engineering, 2021.\par \par R.  Parate, Borgave, M., Dharne, M., and Rode, C., ?Bioglycerol (C3) upgrading to 2,3-butanediol (C4) by cell-free extracts of Enterobacter aerogenes NCIM 2695?, Journal of Chemical Technology and Biotechnology, vol. 96, no. 5, pp. 1316-1325, 2021.\par \par A.  Verma, Gahlyan, P., Bawa, R., Dash, S. Ranjan, Prasad, A. K., and Kumar, R., ?Glycerol-triazole conjugated rhodamine as colorimetric and fluorimetric sensor for Cu2+?, ChemistrySelect, vol. 6, no. 34, pp. 9288-9292, 2021.\par \par S.  Charate, Shinde, S., Kondawar, S., Desai, U., Wadgaonkar, P., and Rode, C., ?Role of preparation parameters of Cu-Zn mixed oxide catalyst in solvent free glycerol carbonylation with urea?, Journal of the Indian Chemical Society, vol. 98, no. 7, p. 100090, 2021.\par \par S.  Bhowmik, Enjamuri, N., Marimuthu, B., and Darbha, S., ?C-O hydrogenolysis of C3-C4 polyols selectively to terminal diols over Pt/W/SBA-15 catalysts?, Catalysts, vol. 12, no. 9, p. 1070, 2022.\par \par R.  Pandya, Mane, R., and Rode, C., ?Influence of catalyst reduction temperature on autogenous glycerol hydrogenolysis over NiAl catalyst?, Asian Journal of Organic Chemistry, vol. 11, no. 2, p. e202100704, 2022.\par \par S.  Bhowmik, Enjamuri, N., Sethia, G., Akula, V., Marimuthu, B., and Darbha, S., ?Insights into active tungsten species on Pt/W/SBA-15 catalysts for selective hydrodeoxygenation of glycerol to 1,3-propanediol?, Molecular Catalysis, vol. 531, p. 112704, 2022.\par \par S. M.  Gade, Saptal, V. B., and Bhanage, B. M., ?Perception of glycerol carbonate as green chemical: synthesis and applications?, Catalysis Communications, vol. 172, p. 106542, 2022.\par \par S. E.  Kondawar, Kasar, G. B., Khatua, A. S., and , ?Activity performance and kinetics for glycerol carbonylation with urea over Zn-Co mixed metal oxide catalyst?, Canadian Journal of Chemical Engineering , vol. 101, no. 4, pp. 2075-2093, 2023.\par \par I.  Chauhan, Bajpai, H., Ray, B., Kolekar, S. K., Datar, S., Patra, K. Kumar, and Gopinath, C. S., ?Electrocatalytic glycerol conversion: a low-voltage pathway to efficient carbon-negative green hydrogen and value-added chemical production?, ACS Applied Materials and Interfaces , vol. 16, no. 20, pp. 26130-26141, 2024.\par \par H.  Bajpai, Nivedhitha, T. R., Dais, E., Kanungo, S. S., and Gopinath, C. S., ?Oxidative and selective C-C cleavage of glycerol to glycolaldehyde with atom-like Cu on Cu-TiO2: photocatalytic water reduction with concurrent glycerol oxidation in sunlight?, Journal of Catalysis, vol. 437, p. 115644, 2024.\par \par P. R.  Nimbalkar and Dharne, M. S., ?Review on microbial 1, 3-propanediol production: Emerging strategies, key hurdles and attainable solutions to re-establish its commercial interest?, Industrial Crops and Products, vol. 209, 2024.\par \par J.  Jana, Sharma, T. Sanjay Kan, Ghanem, M. A., Choi, W. Mook, Gopinath, C. S., and Hur, S. Hyun, ?Europium oxide on carbon nitride for electrocatalytic glycerol oxidation coupled with hydrogen evolution reaction?, Separation and Purification Technology, vol. 372, p. 133442, 2025.\par \par A.  Yadav, Jha, R., Bhatkar, A., Gehlot, B., Kamble, A., Manikandan, M., Bhosale, H., Vaishnav, V., Rathod, R., Umbarkar, S., Raja, T., and Bhatte, K. D., ?Facile and eco-friendly synthesis of Mn2O3 nanoparticles via microwave-assisted glycerol-thermal method?, Journal of Chemical Sciences, vol. 137, no. 4, p. 102, 2025.\par \par N.  Markandeya, Jadhav, M., Gopale, P., Ramalingam, K., and Kamble, S., ?Solvent-assisted chemical recycling of polycarbonate using glycerol as a renewable chemical: mechanistic insights and statistical optimization?, Process Safety and Environmental Protection, vol. 209, p. 108592, 2026.\par \par }