Suddhasatwa Basu
Sudhhasatwa Basu[2] (born 5 January 1963) is the Director[3] of Council of Scientific Industrial Research - Institute of Minerals and Materials Technology (CSIR-IMMT), Bhubaneswar, India and Professor of Chemical Engineering, Indian Institute of Technology (IIT) Delhi, Adjunct Professor, Institute of Chemical Technology, Mumbai and Professor of AcSIR.
Suddhasatwa Basu | |
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| Born | 5 January 1963 |
| Nationality | Indian |
| Alma mater | |
| Known for | Chemical Engineering |
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| Scientific career | |
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| Institutions | |
Early life and education
Suddhasatwa Basu was born on 5 January 1963. He completed a B.Tech from University of Calcutta in 1987 and a Ph.D. from Indian Institute of Science, Bangalore in 1993 in Chemical Engineering.
Career
He worked as postdoctoral research fellow & visiting faculty in the department of Chemical & Material Engineering at University of Alberta, Edmonton, Canada (1994 –1997). He worked on oil sands extraction technology at the University of Alberta and closely involved in various projects.
In 1998 after completion of his research, he joined IIT Delhi, New Delhi as assistant professor in the Department of Chemical Engineering.
He is Professor (Higher Academic Grade), IIT Delhi, whereas worked as Head of the Chemical Engineering Department from 2012 to 2015 and Associate Dean of R&D, IIT Delhi from 2016 to 2017.
Currently he is the Director of Council of Scientific Industrial Research - Institute of Minerals and Materials Technology (CSIR-IMMT) since 2018 (on lien from IIT Delhi) with Outstanding Professor, Faculty of Engineering Sciences, AcSIR and Adjunct Professor (since 2019) in the Department of Chemical Engineering at Institute of Chemical Technology, Mumbai.
He was visiting Professor at the University of Alberta, Canada in 2000 and 2002, University of Newcastle, Australia 2005, University Karlsruhe (KIT), Germany 2006 and University of Newcastle upon Tyne, UK 2008 and 2010. His broad research interests are in the area of Interfacial and Electrochemical Engineering and their application in hydrogen energy and fuel cell technology. He has addressed the issues coming out of the nexus between energy and the environment. His works on development of direct alcohol and glucose PEM and AEM Fuel Cells, PEMFC diagnostics, solid oxide fuel cells, as the source of renewable energy sources and removal ionic dyes from water by reverse micelles selectively, reuse of dye and solvent, CO2 conversion to chemical fuels and dye mineralization by photocatalysis, as environmentally benign technologies.
He has published more than 180 articles in high impact factor journals, 28 conferences, and 8 patents.
Honors
He is a visiting fellow of Royal Society, UK, DAAD fellow, UKIERI[4] award, Distinguish Alumni Award from Chemical Engineering Department, Calcutta University, FITT[5] award for best thesis at IIT Delhi.
- Prof. R. D. Desai 80th Birthday Commemoration Medal & Prize, 2012, Indian Chemical Society; Fellow of the Indian Chemical Society, 2012
- Fellow of Institute of Engineers, 2011
- FITT[5] award for best M.Tech. / Ph.D. thesis 2010; prize money shared with student A. Awasthi
- Visiting Fellow, Royal Society, UK, University of Newcastle upon Tyne, UK, 2008
- Fellow of National Academy Sciences of India
- Fellow of Royal Society of Chemistry, UK.
Editor / Editorial Board Member
- Editor in chief, Indian Chemical Engineer, quarterly Journal of Indian Institute of Chemical Engineers, 2018 – present (former Editor, 2006-2007); published by Taylor & Francis UK
Research interests
- Electrochemical storage and renewable energy sources: materials and device development of PEMFC, DAFC, DGFC, SOFC, SOEC, Hydrogen generation – PEM electrolyzer and photochemical water splitting, Li-, Na- ion battery, super-capacitors and their application in portable electronic equipment and rural electrification in the off grid area.
- Interfacial & electro-chemical engineering and micro-fluid mechanics and their application in micro fuel cell, bio-sensing, CO2 reduction to chemical fuels, dye removal from water by reverse micelles and reuse, dye mineralization by photo-catalysis and their application to rural sectors.
Selected bibliography
Books
- Arya Das, Suddhasatwa Basu, Mamata Mohapatra, Transition Metal Oxalates as Potential Futuristic Materials for Efficient Energy Storage Capacity in Oxalate: Structure, Functions and Occurrence, Nova Science Publishers (2020)
- Surya Kanta Das, Shivakumar I. Angadi, Tonmoy Kundu, and Suddhasatwa Basu, Mineral Processing of Rare Earth Ores, Ch 2, in Rare-Earth Metal Recovery for Green Technologies Methods and Applications, Ed. Rajesh Kumar Jyothi, Springer (2020)
- Neetu Kumari, M. Ali Haider and Suddhasatwa Basu, Mechanism of Catalytic and Electrocatalytic CO2 Reduction to Fuels and Chemicals (Chapter 2) in Electrochemical Reduction of Carbon Dioxide: Fundamentals and Technologies, Ed. Jinli Qiao, Yuyu Liu, Jiujun Zhang, CRC Press 2016
- Suddhasatwa Basu, Proton Exchange Membrane Fuel Cell Technology: India’s Perspective in Energy Material, in Science Based Technologies for Sustainable and Adequate Energy for India, Ed. I. Manna, B. Raj, K. Mudali, Proc Indian Natn Sci Acad 81(4), September 2015 pp. 865-890
- S. Basu (Ed.), Recent Trends in Fuel Cell Science and Technology, Springer, New York (2007) (apart from editing the book contributed two chapters) Cited 288 times
- Basu, S., Report on Challenges in Fuel cell Technology: India’s Perspective, Dec 1 & 2, 2006, New Delhi (DST)
Journal articles s
| Sl | Journal | Citation & Source: Scopus |
| 1 | Dopamine biosensor based on surface functionalized nanostructured nickel oxide platform, Biosensors and Bioelectronics 84, 72-81 (2016) | 83 |
| 2 | Effect of Addition of Rhenium to Pt-based Anode Catalysts in Electro-oxidation of Ethanol in Direct Ethanol PEM Fuel Cell, Intl J. Hydrogen Energy 37(5), 4597-4605 (2012) | 82 |
| 3 | Performance studies of Pd–Pt and Pt–Pd–Au catalyst for electro-oxidation of glucose in direct glucose fuel cell Intl J. Hydrogen Energy 37 (5), 4678-4684 (2012) | 92 |
| 4 | Bi-metallic and tri-metallic Pt–Sn/C, Pt–Ir/C, Pt–Ir–Sn/C catalysts for electro-oxidation of ethanol in direct ethanol fuel cell, Intl J. of Hydrogen Energy 36 (22), 14884-14897 (2011) | 153 |
| 5 | Dynamic modeling and simulation of a proton exchange membrane electrolyzer for hydrogen production Intl J Hydrogen Energy, 36 (22) 14779-14786 (2011) | 99 |
| 6 | A study on direct glucose and fructose alkaline fuel cell, Electrochim Acta 55 (20), 5775-5779 (2010) | 106 |
| 6 | Direct alkaline fuel cell for multiple liquid fuels: Anode electrode studies, J. of Power Sources 174 (1), 180-185 (2007) | 80 |
| 7 | Direct use of alcohols and sodium borohydride as fuel in an alkaline fuel cell, J. of Power Sources 145 (2), 282-285 (2005) | 137 |
| 8 | Manganese dioxide as a cathode catalyst for a direct alcohol or sodium borohydride fuel cell with a flowing alkaline electrolyte, J. of Power Sources 141 (1), 30-34 (2005) | 131 |
| 9 | Removal of ionic dyes from water by solvent extraction using reverse micelles, Environ Sci & Technol 38 (8), 2435-2442 (2004) | 127 |
| 10 | Recent Trends in Fuel Cell Science and Technology, Springer, New York (2007) | 288 |
References
- "Indian Institute of Chemical Engineers". www.iiche.org.in. Retrieved 2020-07-16.
- ORCID. "Suddhasatwa Basu, FNASc (0000-0001-7288-2370)". orcid.org. Retrieved 2020-07-16.
- "CSIR - IMMT | Institute of Minerals and Materials Technology Bhubaneswar, Odisha". www.immt.res.in. Retrieved 2020-07-14.
- "Ukieri". www.ukieri.org. Retrieved 2020-07-16.
- "Foundation for Innovation and Technology Transfer (FITT)". fitt-iitd.in. Retrieved 2020-07-27.
