{\rtf1\ansi\deff0\deftab360

{\fonttbl
{\f0\fswiss\fcharset0 Arial}
{\f1\froman\fcharset0 Times New Roman}
{\f2\fswiss\fcharset0 Verdana}
{\f3\froman\fcharset2 Symbol}
}

{\colortbl;
\red0\green0\blue0;
}

{\info
{\author Biblio 7.x}{\operator }{\title Biblio RTF Export}}

\f1\fs24
\paperw11907\paperh16839
\pgncont\pgndec\pgnstarts1\pgnrestart
W.  Lee, Min, S. Ki, Dhas, V. V., Ogale, S. B., and Han, S. - H., ?Chemical bath deposition of CdS quantum dots on vertically aligned ZnO nanorods for quantum dots-sensitized solar cells?, Electrochemistry Communications, vol. 11, no. 1, pp. 103-106, 2009.\par \par D. B.  Shinde and Pillai, V. K., ?Electrochemical preparation of luminescent graphene quantum dots from multiwalled carbon nanotubes?, Chemistry-A European Journal, vol. 18, no. 39, pp. 12522-12528, 2012.\par \par A. Ayoobul Ansary, Khan, M. I., and Gaikwad, S. M., ?In vitro enzyme mediated synthesis of metal sulfide nanoparticles: control of particle size of CdS, Ni7S6, PbS, Co3S4 nanoparticles using synthetic peptides?, Science of Advanced Materials, vol. 4, no. 1, pp. 179-186, 2012.\par \par D. B.  Shinde and Pillai, V. K., ?Electrochemical resolution of multiple redox events for graphene quantum dots?, Angewandte Chemie-International Edition, vol. 52, no. 9, pp. 2482-2485, 2013.\par \par M.  Biswal, Deshpande, A., Kelkar, S., and Ogale, S., ?Water electrolysis with a conducting carbon cloth: subthreshold hydrogen generation and superthreshold carbon quantum dot formation?, ChemSusChem, vol. 7, no. 3, pp. 883-889, 2014.\par \par R.  Naphade, Nagane, S., G. Shanker, S., Fernandes, R., Kothari, D., Zhou, Y., Padture, N. P., and Ogale, S., ?Hybrid perovskite quantum nanostructures synthesized by electrospray antisolvent-solvent extraction and intercalation?, ACS Applied Materials & Interfaces, vol. 8, no. 1, pp. 854-861, 2016.\par \par T.  Palaniselvam, Kashyap, V., Bhange, S. N., Baek, J. - B., and Kurungot, S., ?Nanoporous graphene enriched with Fe/Co-N active sites as a promising oxygen reduction electrocatalyst for anion exchange membrane fuel cells?, Advanced Functional Materials, vol. 26, no. 13, pp. 2150-2162, 2016.\par \par J.  Bera, Betal, A., Sharma, A., Shankar, U., Rath, A. Kumar, and Sahu, S., ?CdSe quantum dot-based nanocomposites for ultralow-power memristors?, ACS Applied Nano Materials, vol. 5, no. 6, pp. 8502-8510, 2022.\par \par N.  V. Dambhare, Sharma, A., Mahajan, C., and Rath, A. K., ?Thiocyanate- and thiol-functionalized p-doped quantum dot colloids for the development of bulk homojunction solar cells?, Energy Technology, vol. 10, no. 9, p. 2200455, 2022.\par \par C.  Mahajan, Dambhare, N. V., Biswas, A., Sharma, A., Shinde, D. Dattatray, and Rath, A. K., ?Multi-bandgap quantum dots ensemble for near-infrared photovoltaics?, Energy Technology, vol. 11, no. 6, 2023.\par \par U.  Sahu and Prasad, B. L. V., ?One-pot, easy and scalable synthesis of large-size short wave length IR emitting PbS quantum dots?, Photochemistry and Photobiology, vol. 100, no. 4, pp. 1020-1030, 2024.\par \par I. Narayan Chakraborty, Jain, V., Roy, P., Kumar, P., Vinod, C. P., and Pillai, P. P., ?Photocatalytic regeneration of reactive cofactors with inP quantum dots for the continuous chemical synthesis?, ACS Catalysis, vol. 14, no. 9, pp. 6740-6748, 2024.\par \par A.  Betal, Chetia, A., Bera, J., Saikia, D., Sharma, A., Rath, A. K., and Sahu, S., ?Scanning tunneling microscopy investigation of synaptic behavior in AgInS2 quantum dots: effect of ion transport in neuromorphic applications?, ACS Applied Nano Materials , vol. 7, no. 7, pp. 7226-7236, 2024.\par \par D. Dattatray Shinde, Sharma, A., Dambhare, N. V., Mahajan, C., Biswas, A., Mitra, A., and Rath, A. K., ?Synthesis and processing strategy for high-bandgap PbS quantum dots: a promising candidate for harvesting high-energy photons in solar cells?, ACS Applied Materials & Interfaces, vol. 16, no. 32, pp. 42522-42533, 2024.\par \par A.  Sharma, Shinde, D. Dattatray, Mahajan, C., Dambhare, N. V., Biswas, A., Mitra, A., Girade, V. S., and Rath, A. K., ?Synergistic improvement of narrow bandgap PbS quantum dot solar cells through surface ligand engineering, near-infrared spectral matching, and enhanced electrode transparency?, ACS Applied Materials & Interfaces, vol. 17, no. 4, pp. 6614-6625, 2025.\par \par M.  Das, Swathi, S. P., and Prasad, B. L. V., ?Self-powered photodetection in AgBiS2 nanocrystals synthesized from AgBi-mixed-metal thiolate?, ACS Applied Nano Materials, vol. 9, no. 1, pp. 448-456, 2026.\par \par }