C. Mallaiah Nagaraja
Affiliations: | 2011-2012 | IIT Jodhpur | |
| 2012- | IIT Ropar |
Area:
Inorganic and organometallic synthesis and catalysisWebsite:
http://www.iitrpr.ac.in/CMNagaraja/index.htmlGoogle:
"C. M. Nagaraja"Parents
Sign in to add mentor| Balaji Rao Jagirdar | grad student | 2000-2007 | IISc Bangalore |
| Oleg V. Ozerov | post-doc | 2007-2008 | Brandeis |
| C. N. R. Rao | post-doc | 2008-2011 | JNCASR |
Children
Sign in to add trainee| Suman Dhingra | grad student | 2016- | IIT Ropar |
| Rajesh Das | grad student | 2018- | IIT Ropar |
| Manjodh Kaur | grad student | 2017 | IIT Ropar |
| Sandeep Singh Dhankhar | grad student | 2014-2019 | IIT Ropar |
| Bharat Ugale | grad student | 2014-2019 | IIT Ropar |
| Rekha Dhiman | grad student | 2015-2020 | IIT Ropar |
| Nayuesh Sharma | grad student | 2016-2021 | IIT Ropar |
BETA: Related publications
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Publications
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| Kishan R, Rani P, Duhan N, et al. (2025) Noble-Metal-Free ZnII-Anchored Pyrene-Based Covalent Organic Framework (COF) for Photocatalytic Fixation of CO2 from Dilute Gas into Bioactive 2-Oxazolidinones. Chemsuschem. e202402535 |
| Das R, Belgamwar R, Manna SS, et al. (2023) Design of porphyrin-based frameworks for efficient visible light-promoted reduction of CO from dilute gas: Combined experimental and theoretical investigation. Journal of Colloid and Interface Science. 652: 480-489 |
| Das R, Manna SS, Pathak B, et al. (2022) Strategic Design of Mg-Centered Porphyrin Metal-Organic Framework for Efficient Visible Light-Promoted Fixation of CO under Ambient Conditions: Combined Experimental and Theoretical Investigation. Acs Applied Materials & Interfaces |
| Dhingra S, Sharma M, Krishnan V, et al. (2022) Design of noble metal-free NiTiO/ZnInS heterojunction photocatalyst for efficient visible-light-assisted production of H and selective synthesis of 2,5-Bis(hydroxymethyl)furan. Journal of Colloid and Interface Science. 615: 346-356 |
| Dhingra S, Sharma M, Krishnan V, et al. (2022) Design of noble metal-free CoTiO/ZnCdS heterostructure photocatalyst for selective synthesis offurfuraldehyde combined withHproduction. Journal of Colloid and Interface Science. 608: 1040-1050 |
| Dhankhar SS, Das R, Ugale B, et al. (2021) Chemical Fixation of CO2 Under Solvent and Co-Catalyst-free Conditions Using a Highly Porous Two-fold Interpenetrated Cu(II)-Metal–Organic Framework Crystal Growth & Design. 21: 1233-1241 |
| Das R, Muthukumar D, Pillai RS, et al. (2020) Rational design of a Zn(II)-MOF with multiple functional sites for highly efficient fixation of CO2 at mild conditions: A combined experimental and theoretical investigation. Chemistry (Weinheim An Der Bergstrasse, Germany) |
| Das R, Nagaraja CM. (2020) Highly Efficient Fixation of Carbon Dioxide at RT and Atmospheric Pressure Conditions: Influence of Polar Functionality on Selective Capture and Conversion of CO. Inorganic Chemistry |
| Singh Dhankhar S, Ugale B, Nagaraja CM. (2020) Co-Catalyst-Free Chemical Fixation of CO into Cyclic Carbonates by using Metal-Organic Frameworks as Efficient Heterogeneous Catalysts. Chemistry, An Asian Journal. 15: 2403-2427 |
| Dhankhar SS, Nagaraja CM. (2020) Construction of 3D lanthanide based MOFs with pores decorated with basic imidazole groups for selective capture and chemical fixation of CO2 New Journal of Chemistry. 44: 9090-9096 |