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Publications

  1. Engineering the Charge Density on an In2.77S4/Porous Organic Polymer Hybrid Photocatalyst for CO2-to-Ethylene Conversion Reaction, Das, R.; Paul, R.; Parui, A.; Shrotri, A.; Atzori, C.; Lomachenko, K. A.; Singh, A. K.; Mondal, J.; and Peter, S.C.;  J. Am. Chem. Soc. 2023, https://doi.org/10.1021/jacs.2c10351

  2. Wurtzite CuGaS2 with an In-Situ-Formed CuO Layer Photocatalyzes CO2 Conversion to Ethylene with High       Selectivity, Chakraborty, S., Das, R., Riyaz, M., Das, K., Singh, A. K., Bagchi, D., Vinod, C. P., and Peter, S.C.; J. Am. Chem.         Soc. 2023 https://doi.org/10.1002/anie.202216613.

  3. Structural Ordering Enhances Highly Selective Production of Acetic Acid from CO2 at Ultra-Low Potential. Sarkar, S., Raj, J., Bagchi, D., Cherevotan, A., Prabhakaran, V. and Peter, S.C. EES Catalysis. 2023, https://doi.org/10.1039/D2EY00081D.

  4. Engineering Charge Density on In2.77S4/Porous Organic Polymer Hybrid Photocatalyst for CO2 to Ethylene Formation Reaction. Das, R.; Paul, R.; Parui, A.; Shrotri, A.; Atzori, C.; Lomachenko, K. A.; Singh, A. K.; Mondal, J.; Peter, S. C. J. Am. Chem. Soc. 2022, https://doi.org/10.1021/jacs.2c10351. (Impact Factor: 16.383)

  5. Intrinsic Charge Polarization in Bi19S27Cl3 Nano Roads Promotes Selective C-C Coupling Reaction During Photoreduction of CO2 to Ethanol. Das, K.; Das, R.; Riyaz, M.; Parui, A.; Bagchi, D.; Singh, A. K.; Singh, A. K.; Vinod, C. P.; Peter, S. C. Adv. Mater. 2022, https://doi.org/10.1002/adma.202205994. (Impact Factor: 32.086)

  6. In-situ Surface Reconstruction Upon Aliovalent Substitution in ZnS Leads to CuGaS2 Boost Selective Conversion of CO2 to Ethylene. Chakraborty, S.; Das, R.; Das, K.; Singh, A. K.; Bagchi, D.; Vinod, C. P.; Peter, S. C. Angew. Chem. Int. Edn. 2022, https://doi.org/10.1002/anie.202216613. (Impact Factor: 16.82)

  7. Induced Structural Ordering Enhances Highly Selective Production of Acetic Acid from CO2 at Ultra-Low Potential. Sarkar, S.; Raj, J.; Bagchi, D.; Cherevotan, A.; Vinod, C. P.; Peter, S. C. EES Catalysis, 2022, https://doi.org/10.1039/D2EY00081D. (Impact Factor: NA)

  8. Strain Enhanced Phase Transformation of Iron Oxide for Higher Alcohol Production from CO2. Goud, D.; Churipard, S. R.; Bagchi, D.; Singh, A. K.; Riyaz, M.; Vinod, C. P.; Peter, S. C.; ACS Catal. 2022, 12, 11118–11128. https://pubs.acs.org/10.1021/acscatal.2c03183.(Impact factor: 13.7).

  9. Tuning Hybridization and Charge Polarization in Metal Nanoparticles Dispersed over Schiff Base Functionalized SBA-15 Enhances CO2 Capture and Conversion to Formic Acid. Cherevotan, A.; Ray, B.; Yadav, A.; Bagchi, D.; Singh, A. K.; Riyaz, M.; Churipard, S. R.; Naral, V.; Kaur, K.; Gautam, U. K.; Vinod, C. P.; Peter, C. P. J. Mater. Chem. A 2022, 20, 18354-18362.  https://doi.org/10.1039/D2TA03690H.(Impact factor: 14.511)

For SCP lab group publications
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