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R.  Devivaraprasad, Nalajala, N., Bera, B., and Neergat, M., ?Electrocatalysis of oxygen reduction reaction on shape-controlled pt and pd nanoparticles-importance of surface cleanliness and reconstruction?, Frontiers in Chemistry, vol. 7, p. 648, 2019.\par \par B.  Tudu, Nalajala, N., Reddy, K. P., Saikia, P., and Gopinath, C. S., ?Electronic integration and thin film aspects of Au-Pd/rGO/TiO2 for improved solar hydrogen generation?, ACS Applied Materials & Interfaces, vol. 11, no. 36, pp. 32869-32878, 2019.\par \par R. Kumar Singh, Nalajala, N., Kar, T., and Schechter, A., ?Functionalization of graphene - a critical overview of its improved physical, chemical and electrochemical properties?, in Surface Engineering of Graphene, Springer, 2019, pp. 139-173.\par \par N.  Nalajala, Patra, K. Kumar, Bharad, P. A., and Gopinath, C. S., ?Why the thin film form of a photocatalyst is better than the particulate form for direct solar-to-hydrogen conversion: a poor man's approach?, RSC Advances, vol. 9, no. 11, pp. 6094-6100, 2019.\par \par 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.  Tudu, Nalajala, N., Saikia, P., and Gopinath, C. S., ?Cu-Ni bimetal integrated TiO2 thin film for enhanced solar hydrogen generation?, Solar RRL, vol. 4, no. 5, p. 1900557, 2020.\par \par A.  M. Raja, Vijayarengan, P., Pal, Y., Nalajala, N., and Gopinath, C., ?Photocatalytic hydrogen production from H2S using nanostructured CNT blended CdZnS/Fe2O3 thin film on glass substrate?, Journal of Physics Conference Series, vol. 1495. IOP Publishing Ltd, 2020.\par \par 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.\par \par 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.\par \par W. Feroze Goo Saleha, Nalajala, N., and Neergat, M., ?Polyaryletherketone in energy conversion and storage devices - a highly tailorable material with versatile properties?, Polymer International, vol. 70, no. 8, pp. 1026-1037, 2021.\par \par B.  Tudu, Nalajala, N., Reddy, K. Prabhakar, Saikia, P., and Gopinath, C. S., ?Rationally designed, efficient, and earth-abundant Ni-Fe cocatalysts for solar hydrogen generation?, ACS Sustainable Chemistry & Engineering, vol. 9, no. 41, pp. 13915-13925, 2021.\par \par C. S.  Gopinath and Nalajala, N., ?Scalable and thin film approach for solar hydrogen generation: a review on enhanced photocatalytic water splitting?, Journal of Materials Chemistry A, vol. 9, no. 3, pp. 1353-1371, 2021.\par \par K. N.  Salgaonkar, Bajpai, H., Mhamane, N. B., Nalajala, N., Chauhan, I., Thakkar, K., Joshi, K., and Gopinath, C. S., ?Baby step in assembling and integrating the components of an artificial photosynthesis device with forced heterojunctions towards improved efficiency?, Journal of Materials Chemistry A, vol. 11, no. 28, pp. 15168-15182, 2023.\par \par A.  Klyushin, Ghosalya, M., Kokkonen, E., Eads, C., Jones, R., Nalajala, N., Gopinath, C. S., and Urpelainen, S., ?Photocatalytic setup for in situ and operando ambient-pressure X-ray photoelectron spectroscopy at MAX IV Laboratory?, Journal of Synchrotron Radiation, vol. 30, pp. 613-619, 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 K. N.  Salgaonkar, Kale, S. R., Nalajala, N., Mansuri, S., and Gopinath, C. S., ?Selective and generic photocatalytic oxidation of alcohol with Pd-TiO2 thin films: butanols to butanal/butanone with different morphologies of Pd and 0.5 theta(Pt)-Pd counterparts?, Chemistry-An Asian Journal, vol. 18, no. 6, 2023.\par \par P.  Vijayarengan, Maria, A. Raja, Ashadevi, K. S., Nalajala, N., and Gopinath, C. S., ?Thin-film approach for scalability and enhancement of solar hydrogen production with CNT integrated Ce-doped-TiO2 composite in direct sunlight?, Materials Today Catalysis, vol. 10, p. 100115, 2025.\par \par I.  Chauhan, Patra, K. Kumar, Vijay, P. M., Nalajala, N., Mehta, S., Joshi, K., Ravindranathan, S., and Gopinath, C. S., ?Potential tuneable glucose oxidation to selective C6 molecules and CC cleavage, and parallel green H2 production: sustainable high current density electrolysis?, Chemical Engineering Journal, vol. 529, p. 172633, 2026.\par \par }