Chemistry – Page 39 – IISER Tirupati

Mapping for heterogeneous distribution of cancer drugs by imaging mass spectrometry. In A. F. Nassar et al. (Eds.)

Damale, P. S., & Banerjee, S. (2022). Mapping for heterogeneous distribution of cancer drugs by imaging mass spectrometry. In A. F. Nassar et al. (Eds.), Drug metabolism handbook: Concepts and applications in cancer research (pp. 773-809). John Wiley. DOI: 10.1002/9781119851042.ch23

Transition-metal Pincer complexes in acceptorless dehydrogenation reactionsIn AKumar (Ed.),

Yadav, V., Sivakumar, G., & Balaraman, E. (2022). Transition-metal Pincer complexes in acceptorless dehydrogenation reactions. In A. Kumar (Ed.), Pincer-metal complexes: Applications in catalytic dehydrogenation chemistry (pp.163-189). Elsevier. DOI: 10.1016/b978-0-12-822091-7.00004-x

Efficient synthesis of 1,1-Dimethoxymethane from methanol and paraformaldehyde catalyzed by a molecularly defined Ni(II)-complex

Subaramanian, M., Mondal, A., & Balaraman, E. (2022). Efficient synthesis of 1,1-Dimethoxymethane from methanol and paraformaldehyde catalyzed by a molecularly defined Ni(II)-complex. Proceedings of the National Academy of Sciences India, Section A: Physical Sciences, 92(1). DOI: 10.1007/s40010-020-00722-9

Single-molecular Mn(I)-complex-catalyzed tandem double dehydrogenation cross-coupling of (amino)alcohols under solventless conditions with the liberation of H2 and H2O

Sivakumar, G., Subaramanian, M., & Balaraman, E. (2022). Single-molecular Mn(I)-complex-catalyzed tandem double dehydrogenation cross-coupling of (amino)alcohols under solventless conditions with the liberation of H2 and H2O. ACS Sustainable Chemistry & Engineering, 10(22), 7362-7373. DOI: 10.1021/acssuschemeng.2c01222

Ni-Catalyzed C(sp3)-H bond functionalization: Arylation and aminoxylation. In D. Maiti (Ed.),

Sivakumar, G., Subaramanian, M., & Balaraman, E. (2022). Ni-Catalyzed C(sp3)-H bond functionalization: Arylation and aminoxylation. In D. Maiti (Ed.), Handbook of CH-functionalization. Diverse strategies, vol. 13. Wiley-VCH. DOI: 10.1002/9783527834242.chf0062

SiO2-supported HClO4 catalyzed synthesis of (Z)-thiazolylhydrazonoindolin-2-ones and their electrochemical properties

Shaik, S., Sirigireddy, R. M. R., Godugu, K., Vemula, V., Kakarla, R. R., Balaraman, E. et al. (2022). SiO2-supported HClO4 catalyzed synthesis of (Z)-thiazolylhydrazonoindolin-2-ones and their electrochemical properties. Chemosphere, 309. DOI: 10.1016/j.chemosphere.2022.136667

Sustainable and affordable synthesis of (deuterated) N-methyl/ethyl amines from nitroarenes

Mondal, A., Suresh, A. K., Sivakumar, G., & Balaraman, E. (2022). Sustainable and affordable synthesis of (deuterated) N-methyl/ethyl amines from nitroarenes. Organic Letters, 24(49), 8990-8995. DOI: 10.1021/acs.orglett.2c03595

Nickel-catalyzed direct synthesis of N-substituted Indoles from amino alcohols and alcohols

Yadav, V., Jagtap, S. G., Balaraman, E., & Mhaske, S. B. (2022). Nickel-catalyzed direct synthesis of N-substituted Indoles from amino alcohols and alcohols. Organic Letters, 24(49), 9054-9059. DOI: 10.1021/acs.orglett.2c03617

Estimates of cusp forms for certain co-compact arithmetic subgroups

Aryasomayajula, A., & Balasubramanyam, B. (2022). Estimates of cusp forms for certain co-compact arithmetic subgroups. Proceedings of the American Mathematical Society, 150, 4191-4201. DOI: 10.1090/proc/15986

Next-generation Li-ion capacitor with high energy and high power by limiting alloying-intercalation process using SnO2@Graphite composite as battery type electrode

Divya, M. L., Praneetha, S., Lee, Y-S., & Aravindan, V. (2022). Next-generation Li-ion capacitor with high energy and high power by limiting alloying-intercalation process using SnO2@Graphite composite as battery type electrode. Composites Part B: Engineering, 230. DOI: 10.1016/j.compositesb.2021.109487