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H.  Bajpai, Patra, K. Kumar, Ranjan, R., Nalajala, N., Reddy, K. Prabhakar, and Gopinath, C. S., ?Can half-a-monolayer of pt simulate activity like that of bulk pt? solar hydrogen activity demonstration with quasi-artificial leaf device?, ACS Applied Materials & Interfaces, vol. 12, no. 27, pp. 30420-30430, 2020.\par \par B.  Antil, Ranjan, R., Gopinath, C. S., and Deka, S., ?Directed holey and ordered g-C(3)N(4.5)nanosheets by a hard template nanocasting approach for sustainable visible-light hydrogen evolution with prominent quantum efficiency?, Journal of Materials Chemistry A, vol. 8, no. 26, pp. 13328-13339, 2020.\par \par M. Kumar Ghosalya, Reddy, K. Prabhakar, Mhamane, N. B., Ranjan, R., and Gopinath, C. S., ?Gas-solid interactions with reactive and inert gas molecules by NAPUPS: can work function be a better descriptor of chemical reactivity??, Physical Chemistry Chemical Physics, vol. 22, no. 27, pp. 15528-15540, 2020.\par \par S.  Adak, Rabeah, J., Ranjan, R., Khan, T. Suvra, Poddar, M. Kumar, Gupta, R. Kumar, Sasaki, T., Kumar, S., Bordoloi, A., Gopinath, C. S., Bruckner, A., and Bal, R., ?In-situ experimental and computational approach to investigate the nature of active site in low-temperature CO-PROX over CuOx-CeO2 catalyst?, Applied Catalysis A-General, vol. 624, p. 118305, 2021.\par \par B.  Antil, Kumar, L., Ranjan, R., Shenoy, S., Tarafder, K., Gopinath, C. S., and Deka, S., ?One-dimensional multichannel g-C3N4.7 nanostructure realizing an efficient photocatalytic hydrogen evolution reaction and its theoretical investigations?, ACS Applied Energy Materials, vol. 4, no. 4, pp. 3118-3129, 2021.\par \par R.  Ranjan, Mhamane, N. B., Kolekar, S. K., and Gopinath, C. S., ?Electronic structure evolution from metallic vanadium to metallic VxOy: a nappes study for o2+v gas-solid interaction?, Journal of Physical Chemistry C, vol. 126, no. 45, pp. 19136-19146, 2022.\par \par 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.\par \par 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.\par \par N. B. B.  Mhamane, Panchal, S., Kolekar, S. K. K., Ranjan, R., Salgaonkar, K. N. N., Burange, A. S. S., Nalajala, N., Datar, S., and Gopinath, C. S. S., ?Possible handle for broadening the catalysis regime towards low temperatures: proof of concept and mechanistic studies with CO oxidation on surface modified Pd-TiO{\sub 2}?, Physical Chemistry Chemical Physics, vol. 25, no. 33, pp. 22040-22054, 2023.\par \par A.  Saha, Murugiah, V., Ranjan, R., Chauhan, I., Patra, K. Kumar, Bajpai, H., Saha, A., and Gopinath, C. S., ?Design of Bi-functional mixed oxide electrodes for selective oxidative C-C cleavage of glycerol to formate and synchronized green hydrogen production?, Sustainable Energy & Fuels, vol. 8, no. 13, pp. 2954-2968, 2024.\par \par I.  Chauhan, Vijay, P. M., Ranjan, R., Patra, K. Kumar, and Gopinath, C. S., ?Electrocatalytic and selective oxidation of glycerol to formate on 2D 3d-metal phosphate nanosheets and carbon-negative hydrogen generation?, ACS Materials Au, vol. 4, no. 5, pp. 500-511, 2024.\par \par }