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D.  Jagadeesan, Joshi, B., and Parameswaran, P., ?Chemical utilisation of CO2 a challenge for the sustainable world?, Resonance, vol. 20, no. 2, pp. 165?176, 2015.\par \par S.  Gupta, Vinod, C. P., and Jagadeesan, D., ?Preparation of mesoporous titanosilicate with isolated Ti active centers for cyclohexene oxidation?, RSC Advances, vol. 5, no. 112, pp. 92371-92377, 2015.\par \par D.  Vernekar and Jagadeesan, D., ?Tunable acid-base bifunctional catalytic activity of FeOOH in an orthogonal tandem reaction?, Catalysis Science & Technology, vol. 5, no. 8, pp. 4029-4038, 2015.\par \par V.  Srinivasan, Vernekar, D., Jaiswal, G., Jagadeesan, D., and Ramamurthy, S. Sathish, ?Earth abundant iron-rich N-doped graphene based spacer and cavity materials for surface plasmon-coupled emission enhancements?, ACS Applied Materials & Interfaces, vol. 8, no. 19, pp. 12324-12329, 2016.\par \par S.  Gupta, Jain, V. K., and Jagadeesan, D., ?Fine tuning the composition and nanostructure of Fe-based core-shell nanocatalyst for efficient CO2 hydrogenation?, Chemnanomat, vol. 2, no. 10, pp. 989-996, 2016.\par \par D.  Jagadeesan, ?Multifunctional nanocatalysts for tandem reactions: a leap toward sustainability?, Applied Catalysis A-General, vol. 511, pp. 59-77, 2016.\par \par G.  Jaiswal, Landge, V. Gokulkrish, Jagadeesan, D., and Balaraman, E., ?Sustainable Iron-catalyzed direct imine formation by acceptorless dehydrogenative coupling of alcohols with amines?, Green Chemistry, vol. 18, pp. 3232-3238, 2016.\par \par G.  Jaiswal, Landge, V. G., Jagadeesan, D., and Balaraman, E., ?Iron-based nanocatalyst for the acceptorless dehydrogenation reactions?, Nature Communications, vol. 8, p. Article Number: 2147, 2017.\par \par S.  Ratha, Vernekar, D., Sivaneri, K., Jagadeesan, D., and Rout, C. Sekhar, ?Iron-carbon nanohybrid particles as environmentally benign electrode for supercapacitor?, Journal of Solid State Electrochemistry , vol. 21, no. 6, pp. 1665-1674, 2017.\par \par D.  Vernekar, Ratha, S., Rode, C., and Jagadeesan, D., ?Efficient bifunctional reactivity of K-doped CrO(OH) nanosheets: exploiting the combined role of Cr(iii) and surface -OH groups in tandem catalysis?, Catalysis Science & Technology, vol. 9, no. 5, pp. 1154-1164, 2019.\par \par D.  Vernekar, Sakate, S. S., Rode, C. V., and Jagadeesan, D., ?Water-promoted surface basicity in FeO(OH) for the synthesis of pseudoionones (PS) and their analogues?, Journal of Catalysis, vol. 378, pp. 80-89, 2019.\par \par D.  Vernekar, Dayyan, M., Ratha, S., ,, M. Haider, A., Khan, T. Suvra, and Jagadeesan, D., ?Direct oxidation of cyclohexane to adipic acid by a WFeCoO(OH) catalyst: role of bronsted acidity and oxygen vacancies?, ACS Catalysis, vol. 11, no. 17, pp. 10754-10766, 2021.\par \par S.  Gupta, Jain, P., Jagadeesan, D., and Vinod, C. P., ?Morphology-dependent catalysis by Co3O4 nanostructures in atmospheric pressure carbon dioxide hydrogenation?, Journal of Physical Chemistry C, vol. 127, no. 27, pp. 13055-13064, 2023.\par \par K.  Rajendran, Sharma, M., Jaison, A., Ankitha, M., Tiwari, A. D., Vinod, C. P., and Jagadeesan, D., ?Oxidation of ethylene by Cu/TiO2: reducibility of Cu2+ in TiO2 as a possible descriptor of catalytic efficiency?, Catalysis Science & Technology, vol. 13, no. 8, pp. 2330-2339, 2023.\par \par R.  Madampadi, Patel, A. Bhogilal, Vinod, C. P., Gupta, R., and Jagadeesan, D., ?Facile synthesis of nanostructured Ni/NiO/N-doped graphene electrocatalysts for enhanced oxygen evolution reaction?, Nanoscale Advances, vol. 6, no. 11, pp. 2813-2822, 2024.\par \par S.  Gupta, Vinod, C. P., Poupin, C., and Jagadeesan, D., ?Hydrogenation of CO2 catalyzed by thermally decomposed cobalt-containing alkaline earth metal carbonates?, Energy & Fuels, vol. 39, no. 27, pp. 12982-12991, 2025.\par \par }