Dr. Ramesh Laxminarayan Gardas
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Dr. Ramesh Laxminarayan Gardas

Professor
Indian Institute of Technology Madras, India

Highest Degree
Ph.D. in Chemistry from Veer Narmad South Gujarat University, India

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Area of Interest:

Chemistry
100%
Ionic Liquids
62%
Chemical Thermodynamics
90%
Fluid Phase Equilibria
75%
Structure-Property Correlations
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Singh, V., K.D. Amirchand and R.L. Gardas, 2022. Ionic liquid-nanoparticle based hybrid systems for energy conversion and energy storage applications. J. Taiwan Inst. Chem. Eng. Vol. 133. 10.1016/J.JTICE.2022.104237.
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  2. Silva, L.P., E.A. Crespo, M.A.R. Martins, P.C. Barbosa, R.L. Gardas et al., 2022. Encapsulated protic ionic liquids as sustainable materials for co2 separation. Ind. Eng. Chem. Res. 61: 4046-4057.
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  3. Siepmann, J.I., R. Gardas, D.A. Kofke, C.N. de Castro and E. Paulechka et al., 2022. The Journal of chemical & engineering Data: Introduction of topical sections and updates from the editorial team. J. Chem. Eng. Data Vol. 67. 10.1021/acs.jced.1c00969.
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  4. Sarkar, B., K. Das, T. Saha, E. Prasad and R.L. Gardas, 2022. Insights into the formations of host–guest complexes based on the benzimidazolium based ionic liquids−β-cyclodextrin systems. ACS Phys. Chem. Au. 2: 3-15.
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  5. Sarkar, B., K. Das, A.J. Ghosh, R. Islam and T. Saha 2022. Poly(alkyl ether) based ionic liquid–γ-cyclodextrin based inclusion complex and antibacterial activity of the inclusion complex. J. Mol. Liq. Vol. 361. 10.1016/J.MOLLIQ.2022.119571.
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  6. Sarkar, B., E. Prasad and R.L. Gardas, 2022. Systematic photophysical, thermal and electrochemical analysis of a series of phenothiazine cored conjugated aromatic unit appended D–π–A based high-solid state luminescent materials: their applications in reversible mechanofluorochromic and volatile acid sensing Mater. Adv. 3: 2871-2883.
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  7. Sarkar, B., E. Prasad and R.L. Gardas, 2022. Reversible mechanofluorochromism by simple phenyl and mesitylene appended solid state emitters via crystal to amorphous transitions. Dyes Pigm. Vol. 204. 10.1016/j.dyepig.2022.110246.
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  8. Patel, S.G., R.M. Vala, P.J. Patel, D.B. Upadhyay and V. Ramkumar et al., 2022. Synthesis, crystal structure and in silico studies of novel 2,4-dimethoxy-tetrahydropyrimido[4,5-b]quinolin-6(7H)-ones. RSC Adv. 12: 18806-18820.
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  9. Jisha, K.J., S. Rajamani, D. Singh, G. Sharma and R.L. Gardas, 2022. A comparative study of ionothermal treatment of rice straw using triflate and acetate-based ionic liquids. J. Ionic Liq. Vol. 2. 10.1016/j.jil.2022.100037.
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  10. Ijardar, S.P., V. Singh and R.L. Gardas, 2022. Revisiting the physicochemical properties and applications of deep eutectic solvents. Molecules, Vol. 27. 10.3390/molecules27041368.
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  11. Brahma, S., K. Ramanujam and R.L. Gardas, 2022. Nitrogen-doped high surface area porous carbon material derived from biomass and ionic liquid for high-performance supercapacitors. Ind. Eng. Chem. Res. 61: 12073-12082.
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  12. Athira, K.K. and R.L. Gardas, 2022. Insights into the partitioning of dna in aqueous biphasic system containing ammonium-based ionic liquid and phosphate buffer. Fluid Phase Equilib. Vol. 558. 10.1016/j.fluid.2022.113463.
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  13. Anju, P., B. Aryanandiny, S.K. Amizhtan, R.L. Gardas and R. Sarathi, 2022. Investigation on the electrical and rheological properties of aln-based synthetic ester nanofluids. IEEE Access, 10: 37495-37505.
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  14. Amizhtan, S.K., R. Akash, R.L. Gardas, R. Sarathi and B. Aryanandiny, 2022. Understanding the electro-rheological aspects of nano silica based ester fluid with surfactants and deep learning-based prediction of ect. IEEE Access, 11: 1083-1093.
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  15. Amizhtan, S.K., A.J. Amalanathan, R. Sarathi, B. Srinivasan, R.L. Gardas, H. Edin and N. Taylor, 2022. Impact of surfactants on the electrical and rheological aspects of silica based synthetic ester nanofluids. IEEE Access, 10: 18192-18200.
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  16. Amalanathan, A.J., R. Sarathi, B. Sarkar, R.L. Gardas, N. Harid and H. Griffiths, 2022. Impact of silver sulfide on rheology and streaming electrification of mineral oil and mixed fluid. J. Electrostat. Vol. 119. 10.1016/J.ELSTAT.2022.103747.
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  17. Singh, D., S.K. Panigrahi, G. Sharma and R.L. Gardas, 2021. Scrutinizing the stability of haemoglobin in 1,2,4-triazolium based ionic liquid. J. Mol. Liq. Vol. 349. 10.1016/J.MOLLIQ.2021.118213.
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  18. Malla, S., K.J. Jisha, R.L. Gardas and S.N. Gummadi, 2021. Diazobicyclo[5.4.0]undec-7ene-ium and tetramethyl guanidium based ionic liquids enhanced thermal stability of xylose reductase at extreme pH through specific ion effect. J. Mol. Liq. Vol. 328. 10.1016/J.MOLLIQ.2021.115394.
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  19. Losetty, V., C.H. Yadav, C.D. Wilfred and R.L. Gardas, 2021. Investigation of anion structural effects on solute‐solvent interactions of ionic liquids with dmf by volumetric, acoustic, viscometric properties and cosmo‐rs calculations. ChemistrySelect, 6: 2994-3005.
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  20. Hadi, S., E. Taheri, M.M. Amin, A. Fatehizadeh and R.L. Gardas, 2021. Empirical modeling and kinetic study of methylene blue removal from synthetic wastewater by activation of persulfate with heterogeneous Fenton-like process. J. Mol. Liq. Vol. 328. 10.1016/J.MOLLIQ.2021.115408.
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  21. Das, K., R.N. Patra and R.L. Gardas, 2021. Study on inclusion complexation of β-CD and nitro-benzyl-imidazolium-based ionic liquids with various physicochemical techniques. J. Mol. Liq. Vol. 348. 10.1016/J.MOLLIQ.2021.118039.
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  22. Crespo, E.A., L.P. Silva, C.I.P. Correia, M.A.R. Martins and R.L. Gardas et al., 2021. Development of a robust soft-SAFT model for protic ionic liquids using new high-pressure density data. Fluid Phase Equilib. Vol. 539. 10.1016/J.FLUID.2021.113036.
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  23. Brahma, S. and R.L. Gardas, 2021. Effect of alkyl chain length and temperature on volumetric, acoustic and apparent molar properties of pyrrolidinium based ionic liquids in acetonitrile. J. Mol. Liq. Vol. 348. 10.1016/J.MOLLIQ.2021.118067.
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  24. Chasib, K.F., A.J. Mohsen, K.J. Jisha and R.L. Gardas, 2020. Extraction of phenolic pollutants from industrial wastewater using a bulk ionic liquid membrane technique. Environ. Technol., 43: 1038-1049.
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