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, ,, Wadgaonkar, P. P., Tapase, S. R., Kodam, K. M., Choudhari, A., and Sarkar, D., Click chemistry based multicomponent approach in the synthesis of spirochromenocarbazole tethered 1,2,3-triazoles as potential anticancer agents, Bioorganic Chemistry, vol. 85, pp. 475-486, 2019.
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V. R. Acham, Biradar, A. V., Dongare, M. K., Kemnitz, E., and Umbarkar, S. B., Palladium nanoparticles supported on magnesium hydroxide fluorides: a selective catalyst for olefin hydrogenation, ChemCatChem, vol. 6, no. 11, pp. 3182-3191, 2014.
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A. Basu and Banerjee, R., Chemically stable urea based COF for size selective heterogeneous catalysis, Acta Crystallographica A‐Foundation and Advances, vol. 70, p. C1146, 2014.
R. Belgamwar, Rankin, A. G. M., Maity, A., Mishra, A. Kumar, Gomez, J. S., Trebosc, J., Vinod, C. P., Lafon, O., and Polshettiwar, V., Boron nitride and oxide supported on dendritic fibrous nanosilica for catalytic oxidative dehydrogenation of propane, ACS Sustainable Chemistry & Engineering, vol. 8, no. 43, pp. 16124-16135, 2020.
K. J. Betsy, Nayak, C., Lazar, A., Krishnan, A., Bhattacharyya, D., Jha, S. N., and Vinod, C. P., Selective oxidation of cyclohexane to cyclohexanone using chromium oxide supported mesoporous MCM-41 nanospheres: probing the nature of catalytically active chromium sites, ChemCatChem, vol. 10, no. 15, pp. 3291-3298, 2018.
A. S. Burange, Gadam, K. G., Tugaonkar, P. S., Thakur, S. D., Soni, R. K., Khan, R. R., Tai, M. S., and Gopinath, C. S., Green synthesis of xanthene and acridine-based heterocycles of pharmaceutical importance: a review, Environmental Chemistry Letters, 2021.
A. S. Burange and Gopinath, C. S., Catalytic applications of hydrotalcite and related materials in multi -component reactions: concepts, challenges and future scope, Sustainable Chemistry and Pharmacy, vol. 22, p. 100458, 2021.
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D. Chakraborty, Nandi, S., Mullangi, D., Haldar, S., Vinod, C. P., and Vaidhyanathan, R., Cu/Cu2O nanoparticles supported on a phenol-pyridyl COF as a heterogeneous catalyst for the synthesis of unsymmetrical diynes via glaser-hay coupling, ACS Applied Materials & Interfaces, vol. 11, no. 17, pp. 15670-15679, 2019.
H. S. Chandak, Lad, N. P., and Upare, P. P., Recyclable amberlyst-70 as a catalyst for biginelli reaction: an efficient one-pot green protocol for the synthesis of 3,4-dihydropyrimidin-2(1H)-ones, Catalysis Letters, vol. 131, no. 3-4, pp. 469-473, 2009.
T. V. Choudhary and Choudhary, V. R., Energy-efficient syngas production through, catalytic oxy-methane reforming reactions, Angewandte Chemie-International Edition, vol. 47, no. 10, pp. 1828-1847, 2008.
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B. Ahmad Dar, Bhatti, P., Singh, A. P., Lazar, A., Sharma, P. R., Sharma, M., and Singh, B., Clay entrapped Cu(OH)(x) as an efficient heterogeneous catalyst for ipso-hydroxylation of arylboronic acids, Applied Catalysis A-General, vol. 466, pp. 60-67, 2013.
D. De, Pal, T. K., Neogi, S., Senthilkumar, S., Das, D., Gupta, S. Sen, and Bharadwaj, P. K., Versatile Cu-II metal-organic framework exhibiting high gas storage capacity with selectivity for CO2: conversion of CO2 to cyclic carbonate and other catalytic abilities, Chemistry-A European Journal, vol. 22, no. 10, pp. 3387-3396, 2016.
P. Laxmikant Dhepe and Fukuoka, A., Cellulose conversion under heterogeneous catalysis, ChemSusChem, vol. 1, no. 12, pp. 969-975, 2008.
D. S. Doke, Umbarkar, S. B., Gawande, M. B., Zbori, R., and Biradar, A. V., Environmentally benign bioderived carbon microspheres-supported molybdena nanoparticles as catalyst for the epoxidation reaction, ACS Sustainable Chemistry & Engineering, vol. 5, no. 1, pp. 904-910, 2017.
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M. Kumar Ghosalya, Subtle interaction between Ag and O 2 : a near ambient pressure UV photoelectron spectroscopy (NAP-UPS) investigations, Journal of Chemical Sciences, vol. 130, no. 3, p. 30, 2018.
A. Ghosh and Kumar, R., Synthesis, characterization and catalytic application of Ru-II-ethylenediamine complex - mesoporous silica as heterogeneous catalyst system in chemo-selective hydrogenation of alpha,beta-unsaturated carbonyl compounds, Microporous and Mesoporous Materials, vol. 87, no. 1, pp. 33-44, 2005.
E. S. Gnanakumar, Naik, J. Madhusudha, Manikandan, M., Raja, T., and Gopinath, C. S., Role of nanointerfaces in Cu- and Cu plus Au-based near-ambient-temperature CO oxidation catalysts, ChemCatChem, vol. 6, no. 11, pp. 3116-3124, 2014.
E. S. Gnanakumar, John, J. C., Raja, T., and Gopinath, C. S., Functional and disordered meso-macroporous gamma-Al2-xMxO3 +/- y (M = Cu and/or Ce), Journal of Nanoscience and Nanotechnology, vol. 13, no. 4, pp. 2682-2688, 2013.
E. S. Gnanakumar, Gowda, R. R., Kunjir, S., Ajithkumar, T. G., Rajamohanan, P. R., Chakraborty, D., and Gopinath, C. S., MgCl2 center dot 6CH(3)OH: a simple molecular adduct and its influence as a porous support for olefin polymerization, ACS Catalysis, vol. 3, no. 3, pp. 303-311, 2013.
C. S. Gopinath, Roy, K., and Nagarajan, S., Can we shift and/or broaden the catalysis regime towards ambient temperature?, ChemCatChem, vol. 7, no. 4, pp. 588-594, 2015.
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R. Jain and Gopinath, C. S., Electronic structure evolution of Pd@Co nanocatalysts under oxidation and reduction conditions and preferential CO oxidation, ChemCatChem, vol. 12, no. 16, pp. 4176-4184, 2020.
A. Jha, Patil, K. R., and Rode, C. V., Mixed Co-Mn oxide-catalysed selective aerobic oxidation of vanillyl alcohol to vanillin in base-free conditions, Chempluschem, vol. 78, no. 11, pp. 1384-1392, 2013.
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S. B. Kamble, Swami, R. K., Sakate, S. S., and Rode, C. V., Highly efficient povidone-phosphotungstic acid catalyst for the tandem acetalization of aldehydes to bis- and tris(indolyl)methanes, ChemPlusChem, vol. 78, no. 11, pp. 1393-1399, 2013.
T. V. Kotbagi, Biradar, A. V., Umbarkar, S. B., and Dongare, M. K., Isolation, characterization, and identification of catalytically active species in the MoO3/SiO2 catalyst during solid acid catalyzed reactions, Chemcatchem, vol. 5, no. 6, pp. 1531-1537, 2013.
T. Kotbagi, Nguyen, D. Luan, Lancelot, C., Lamonier, C., Thavornprasert, K. - A., Wenli, Z., Capron, M., Jalowiecki-Duhamel, L., Umbarkar, S. B., Dongare, M. K., and Dumeignil, F., Transesterification of diethyl oxalate with phenol over sol-gel MoO3/TiO2 catalysts, Chemsuschem, vol. 5, no. 8, pp. 1467-1473, 2012.
A. B. Kulal, Kasabe, M. M., Jadhav, P. V., Dongare, M. K., and Umbarkar, S. B., Hydrophobic WO3/SiO2 catalyst for the nitration of aromatics in liquid phase, Applied Catalysis A-General, vol. 574, pp. 105-113, 2019.
A. B. Kulal, Dongare, M. K., and Umbarkar, S. B., Sol-gel synthesised WO3 nanoparticles supported on mesoporous silica for liquid phase nitration of aromatics, Applied Catalysis B-Environmental, vol. 182, pp. 142-152, 2016.
A. A. Kulkarni, Zeyer, K. - P., Jacobs, T., Kaspereit, M., and Kienle, A., Feasibility studies and dynamics of catalytic liquid phase esterification reactions in a micro plant, Chemical Engineering Journal, vol. 135, pp. S270-S275, 2008.
J. Kumawat, Gupta, V. Kumar, and Vanka, K., Nature of the active site in ziegler-natta olefin polymerization catalysis systems - a computational investigation, European Journal of Inorganic Chemistry, no. 29, pp. 5063-5076, 2014.
A. Kumbhar, Kamble, S., Mane, A., Jha, R. Kumar, and Salunkhe, R., Modified zeolite immobilized palladium for ligand-free suzuki-miyaura cross-coupling reaction, Journal of Organometallic Chemistry, vol. 738, pp. 29-34, 2013.
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A. Lazar, Vinod, C. P., and Singh, A. P., Exploration of amination reactions on highly extendable active sites of Pd(II)-3-allylsalicylaldiminophenol (ASIP) complex over thiofunctionalized SBA-15, Microporous and Mesoporous Materials, vol. 242, pp. 173-181, 2017.
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S. S. Mani, Rajendran, S., Nalajala, N., Mathew, T., and Gopinath, C. S., Electronically integrated mesoporous Ag-TiO2 nanocomposite thin films for efficient solar hydrogen production in direct sunlight, Energy Technology, vol. 10, no. 1, p. 2100356, 2021.
N. B. Mhamane, Chetry, S., Ranjan, R., Raja, T., and Gopinath, C. S., Sustainable CO2 reduction on in (2)O(3 )with exclusive CO selectivity: catalysis and in situ valence band photoelectron spectral investigations, ACS Sustainable Chemistry & Engineering, vol. 10, no. 11, pp. 3521-3531, 2022.
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.
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A. S. Nagpure, Gogoi, P., and Chilukuri, S. V., Active and recyclable gold metal nanoparticles catalyst supported on nitrogen-doped mesoporous carbon for chemoselective hydrogenation of cinnamaldehyde to cinnamyl alcohol, Chemistry-An Asian Journal, vol. 16, no. 18, pp. 2702-2722, 2021.
N. Nalajala, Salgaonkar, K. N., Chauhan, I., Mekala, S. Prasad, and Gopinath, C. S., Aqueous methanol to formaldehyde and hydrogen on Pd/TiO2 by photocatalysis in direct sunlight: structure dependent activity of nano-Pd and atomic Pt-coated counterparts, ACS Applied Energy Materials, vol. 4, no. 11, pp. 13347-13360, 2021.
K. Y. Nandiwale, Gogoi, P., and Bokade, V. V., Catalytic upgrading of citric acid to environmental friendly tri-butyl citrate plasticizer over ultra stable phosphonated Y zeolite, Chemical Engineering Research & Design, vol. 98, pp. 212-219, 2015.
S. Singh Negi, Sivaranjani, K., Singh, A. Pal, and Gopinath, C. S., Disordered mesoporous V/TiO2 system for ambient oxidation of sulfides to sulfoxides, Applied Catalysis A-General, vol. 452, pp. 132-138, 2013.
D. L. Nguyen, Gillot, S., Souza, D. O., Blanchard, P., Lamonier, C., Berrier, E., Kotbagi, T. V., Dongare, M. K., Umbarkar, S. B., Cristol, S., Payen, E., and Lancelot, C., One-pot sol-gel preparation for efficient cobalt-molybdenum-titania hydrotreating catalysts, Chemcatchem, vol. 4, no. 12, pp. 2112-2120, 2012.
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R. Kumar Pandey and Kumar, R., Eco-friendly synthesis of epichlorohydrin catalyzed by titanium silicate (TS-1) molecular sieve and hydrogen peroxide, Catalysis Communications, vol. 8, no. 3, pp. 379-382, 2007.
C. R. Patil, Kamble, S. P., and Rode, C. V., Single-pot alcoholysis of furfuryl alcohol to alkyl levulinates using heterogenized p-TSA catalyst**, ChemistrySelect, vol. 6, no. 26, pp. 6636-6643, 2021.
N. M. Patil, Gupte, S. P., and Chaudhari, R. V., Heterogenized copper catalysts for the amination of arylhalide: synthesis, characterization and catalytic applications, Applied Catalysis A-General, vol. 372, no. 1, pp. 73-81, 2010.
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R. Ranjan, Tekawadia, J., Jain, R., Mhamane, N. B., Raja, T., and Gopinath, C. S., Co3O4 for sustainable CO2 reduction and possible fine-tuning towards selective CO production, Chemical Engineering Journal, vol. 471, p. 144459, 2023.
K. Roy, Jain, R., and Gopinath, C. S., Towards a sustainable and near ambient DeNO(x) under lean burn conditions: a revisit to no reduction on virgin and modified pd(111) surfaces, ACS Catalysis, vol. 4, no. 6, pp. 1801-1811, 2014.
K. Roy and Gopinath, C. S., NOx reduction at near ambient temperatures and under lean-burn conditions on modified pd surfaces, ChemCatChem, vol. 6, no. 2, pp. 531-537, 2014.
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R. Sahu and Dhepe, P. Laxmikant, One-Pot method for the selective conversion of hemicellulose from crop waste into C5 sugars and furfural by using solid acid catalysts, Chemsuschem, vol. 5, no. 4, pp. 751-761, 2012.
M. S. Said, Pandole, S., Suryavanshi, A., Kumar, P., and Gajbhiye, J. M., Acidic handle assemble heterogeneous carbocatalyst for facile aliphatic nucleophilic fluorination, ChemistrySelect, vol. 4, no. 36, pp. 10960-10964, 2019.
M. Sankar, Satav, S., and Manikandan, P., Transesterification of cyclic carbonates to dimethyl carbonate using solid oxide catalyst at ambient conditions: environmentally benign synthesis, Chemsuschem, vol. 3, no. 5, pp. 575-578, 2010.
N. Scotti, Ravasio, N., Evangelisti, C., Psaro, R., Penso, M., Niphadkar, P. S., Bokade, V. V., and Guidotti, M., Epoxidation of karanja (Millettia pinnata) oil methyl esters in the presence of hydrogen peroxide over a simple niobium-containing catalyst, Catalysts, vol. 9, no. 4, p. 344, 2019.
J. Sebastian and Darbha, S., Solid, double-metal cyanide catalysts for synthesis of hyperbranched polyesters and aliphatic polycarbonates, Journal of Chemical Sciences, vol. 126, no. 2, pp. 499-509, 2014.
J. Sebastian and Srinivas, D., Influence of method of preparation of solid, double-metal cyanide complexes on their catalytic activity for synthesis of hyperbranched polymers, Applied Catalysis A-General, vol. 464, pp. 51-60, 2013.
S. S. Shaikh, Patil, C. R., Lucas, N., Bokade, V. V., and Rode, C. V., Direct conversion of N-acetyl-d-glucosamine to N-containing heterocyclic compounds 3-acetamidofuran and 3-acetamido-5-acetyl Furan, Waste and Biomass Valorization, vol. 14, no. 12, pp. 4201-4214, 2023.
N. Shilpa, Nadeema, A., and Kurungot, S., Glycine-induced electrodeposition of nanostructured cobalt hydroxide: a bifunctional catalyst for overall water splitting, ChemSusChem, 2019.
B. Singh, Mote, K. R., Gopinath, C. S., Madhu, P. K., and Polshettiwar, V., SBA-15-oxynitrides as a solid-base catalyst: effect of nitridation temperature on catalytic activity, Angewandte Chemie-International Edition, vol. 54, no. 20, pp. 5985-5989, 2015.
K. Sivaranjani, Rajaambal, S., Das, T., Roy, K., Bhattacharyya, S., and Gopinath, C. S., Disordered mesoporous TiO2-xNx+Nano-Au: an electronically integrated nanocomposite for solar H-2 generation, ChemCatChem, vol. 6, no. 2, pp. 522-530, 2014.
B. S. Solanki and Rode, C. V., Selective hydrogenolysis of 5-(hydroxymethyl)furfural over Pd/C catalyst to 2,5-dimethylfuran, Journal of Saudi Chemical Society, vol. 23, no. 4, pp. 439-451, 2019.
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X. Tan, Sudarsanam, P., Tan, J., Wang, A., Zhang, H., Li, H., and Yang, S., Sulfonic acid-functionalized heterogeneous catalytic materials for efficient biodiesel production: a review, Journal of Environmental Chemical Engineering, vol. 9, no. 1, p. 104719, 2021.
U. S. Taralkar, Kalita, P., Kumar, R., and Joshi, P. N., Synthesis, characterization and catalytic performance of Sn-MCM-48 in solvent-free Mukaiyama-type aldol condensation reactions, Applied Catalysis A-General, vol. 358, no. 1, pp. 88-94, 2009.
K. Thirunavukkarasu, Nagarajan, S., and Gopinath, C. S., Electronic decoupling of surface layers from bulk and its influence in oxidation catalysis: a molecular beam study, Applied Surface Science, vol. 256, no. 2, pp. 443-448, 2009.
K. S. Thushara, Ajithkumar, T. G., Rajamohanan, P. R., and Gopinath, C. S., Structural investigations of porous MgCl2-2-butanol molecular adduct as support for olefin polymerization, Applied Catalysis A-General, vol. 469, pp. 267-274, 2014.
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T. Singh Verma, Samal, P. Paramita, Selvaraj, K., and Krishnamurty, S., Can Li atoms anchored on boron- and nitrogen-doped graphene catalyze dinitrogen molecules to ammonia? a DFT study, ChemPhysChem, vol. 24, no. 12, 2023.
R. Vishwakarma, Vinod, C. P., Rathod, V. K., and Kantam, M. Lakshmi, Imine oxidation catalyzed by zinc hydroxyapatite: kinetic studies, ChemistrySelect, vol. 8, no. 17, p. e202203503, 2023.
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L. Wang, Jia, M., Shylesh, S., Philippi, T., Seifert, A., Ernst, S., Singh, A. Pal, and Thiel, W. R., Covalently immobilized triphenylphosphine rhodium complex: synthesis, characterization, and application in catalytic olefin hydrogenation, Chemcatchem, vol. 2, no. 11, pp. 1477-1482, 2010.
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