Dr. M. Balaji
Qualification : Ph.D. (Pusan National University, South Korea)
Designation : Asst. Professor
Email: [email protected]
Details of Educational Qualification:
| Course | Specialization | Group | College Name/University | Year of Passing |
|---|---|---|---|---|
| Post-Doctoral Fellow | Chemistry | Chemistry | Pusan National University, South Korea | 2023 |
| Post-Doctoral Fellow | Chemistry | Chemistry | University of Ulsan, South Korea | 2021 |
| Post-Doctoral Fellow | Chemistry | Chemistry | Pusan National University, South Korea | 2016 |
| Ph.D. | Chemistry | Chemistry | Pusan National University, South Korea | 2015 |
| M.Sc. | Chemistry | Chemistry | C. Abdul Hakeem College (University of Madras), Vellore, Tamil Nadu, India | 2003 |
| B.Sc. | Chemistry | Chemistry | C. Abdul Hakeem College (University of Madras), Vellore, Tamil Nadu, India | 2001 |
List of Publications
| S.No | Title of the Paper | Full Details of Journal Name / Conference Name, Volume number, page number, Date |
|---|---|---|
| 1 | Controlled Synthesis and Uniform Anchoring of Hollow CuxO Nanocubes on Carbon Nanofiber for Enhanced Se(S)-Se(S) Bond Activation | Inorganic Chemistry, 2023, 62, 31, 12573-12581. |
| 2 | A Simple Surfactant-free Synthesis of CuO Nanoparticles on Carbon Nano Fiber for Regioselective Hydroboration of Alkynes | RSC Advances, 2022, 12, 24998-25005. |
| 3 | Highly Dispersed Cu3Pd1 Nanoparticles for Domino Sonogashira Coupling/Cyclization: Promotion Effect of Copper | ACS Catalysis, to be submitted. |
| 4 | Mechanochemical synthesis of active magnetite nanoparticles supported on charcoal for facile synthesis of alkynyl selenides via C-H activation | ChemCatChem, 8, 2016, 2345-2350. |
| 5 | Superparamagnetic CuFe2O4 nanoparticles catalyzed aerobic, ligand-free, regioselective hydroboration of alkynes: Influence of synergistic effect | Applied Catalysis A: General, 519, 2016, 78-84. |
| 6 | Phosphine and palladium-free synthesis of aryl boronates: a nano catalytic approach | Catalysis Communications, 85, 2016, 61-65. |
| 7 | Copper nanoparticles/Activated Charcoal catalyzed Se(Te)-Se(Te) bond activation: A straight forward route toward unsymmetrical organochalcogenides from boronic acids | ChemCatChem,7, 2015, 405- 412. |
| 8 | Copper nanoparticles catalyzed formation of C-S Bonds via Activation of S-S and C-H bonds: An easy route to alkynyl sulfides | Synthesis, 47, 2015, 3741-3745. |
| 9 | Ultrasound assisted, Transition-Metal-Free Synthesis of Diaryl Tellurides from Aryl Boronic Acids: A possible Free-Radical Mechanism | Synlett, 25, 2014, 2078-2082. |
| 10 | Transition-metal free synthesis of diaryl vinyl selenides: a simple synthetic approach with high selectivity | Tetrahedron, 70, 2014, 2699-2702. |
| 11 | A copper-based ionic liquid as inexpensive and efficient catalyst for the [3+2] cycloaddition of azides and terminal alkynes | Inorganic Chemistry Communications, 35, 2013, 239-241. |
| 12 | Synthesis of monodisperse Cu nanoparticles in Ionic Liquids: A synthetic and catalytic approach of in- situ nanoparticles | Solid State Sciences, 22, 2013, 16-20. As Co-Author |
| 13 | TiC-Supported Ruthenium Nanoparticles as an efficient electrocatalyst for the hydrogen evolution reaction | Inorganic Chemistry Communications, 147, 2023, 110267. |
| 14 | Metal Organic Frameworks-based cathode materials for energy storage applications | Energy Technology, 11, 2023, 2201200. |
| 15 | Straightforward Engineering of Porous C3N4/Fe3O4 Electrocatalyst for Oxygen Reduction Reaction in Alkaline Medium | Materials Today Chemistry, 30, 2023, 101534. |
| 16 | CuO hollow nanosphere-catalyzed cross-coupling of aryl iodides with thiols | Nanoscale Research Letters, 8, 2013, 390-396. |