Gender

Male


Location

Bhubaneswar, Odisha


Birthday:

May 5


I am...

Chemist, Engineer


My research field or area of interest innanotechnology

• Wet Chemistry • Aqueous leaching (Chemical & Bio) • Biosorption & bioremediation • Solvent extraction • Vacuum cold spray/Aerosol deposition • Column & heap leaching


Interest in...

Fuel Cell, Biochar, Bioactive molecules, Biofuels


Publication list

List of Journals 1. D. Pradhan, L.B. Sukla*, N. Devi, S. Acharya, 2018: Geochemical Cycle of Radon and its Bioremediation Opportunity from Water Environment: A Review. Recent Patents on Biotechnology. https://doi.org/10.2174/2211550107666180501123246 2. D. Pradhan, S. Panda, L.B. Sukla*, 2018: Recent Advances in Indium Metallurgy: A Review. Mineral Processing and Extractive Metallurgy Review, 39,167-180. I.F.- 2.117 3. D. Pradhan*, L. B. Sukla, D.J. Kim, 2018: Characterization and Pretreatment of Spent Petroleum Refinery Catalyst for its Biodissolution. Inglomayor, Section C, 14, 2-13. 4. A. Pattanaik, L. B. Sukla, D. Pradhan*, 2018: Effect of LED Lights on the Growth of Microalgae. Inglomayor, Section C, 14, 14-24. 5. D. Pradhan, L. B. Sukla*, M. Sawyer, Pattanathu K.S.M. Rahman, 2017: Recent bioreduction of hexavalent chromium in wastewater treatment: A review. Journal of Industrial and Engineering Chemistry, 55, 1-20. I.F.- 4.841 6. D. Pradhan*, L. B. Sukla, 2017: Thin film of Yttria stabilized Zirconia on NiO using vacuum cold spraying process for solid oxide fuel cell. International Journal of Nano and Biomaterials, 7, 38-47. 7. L.B. Sukla*, D. Pradhan, 2017: Microbial leaching of oxidic nickel ore: a review. Journal of Sustainable Planet, 8(4), 29-40. 8. D. Pradhan, L.B. Sukla*, R. Acevedo, 2017: Microalgae for Future Biotechnology Industries. Inglomayor, Section C, 13, 40-55. 9. D. Pradhan, S. Singh, L.B. Sukla*, 2017: Microalgae for Carbon Sequestration vis-à-vis Bio-fuels Production. Inglomayor, Section C, 13, 56-67. 10. D. Pradhan*, L. B. Sukla, 2017: Algal carotenoids as future antioxidant and anticancerous nutraceutical. International Research Journal of Industrial and Environmental Biotechnology, in press. 11. L.B. Sukla*, D. Pradhan, S. Panda, 2017: Biotechnological Utilization of Microbes for Eco-Friendly Recovery of Metals. Journal of Sustainable Planet, 8(2), 16-24. 12. D. Pradhan, A. K. Patra, D-J Kim*, H-S Chung, S-W Lee, 2013: A novel sequential process of bioleaching and chemical leaching for dissolving Ni, V, and Mo from spent petroleum refinery catalyst. Hydrometallurgy, 131-132, 114-119. I.F.- 3.3 13. M. Jena, D Pradhan, T Das*, 2012: A comparative study of biosorption of Cu using Aspergillus niger and Aspergillus flavus. International Journal of Environment and Waste Management, 9, 221-231. 14. D. Pradhan, D-J. Kim*, S-B. Baik, S-W. Lee, 2011: Extraction of valuable metals from spent desulfurizing catalyst. Journal of Korean Institute of Resources Recycling, 20, 48-54. 15. D. Pradhan, D-J. Kim*, J-G. Ahn, C.S. Gahan, H-S. Chung, S-W. Lee, 2011: Comparison of bioleaching kinetics of spent catalyst by adapted and unadapted iron oxidizing bacteria - effect of pulp density; particle size; temperature. Korean Journal of Metals and Materials, 49, 956-966. I.F.- 1.518 16. A.K. Patra, D. Pradhan, D-J. Kim*, J-G. Ahn, H-S. Yoon, 2011: Review on bioleaching of uranium from low-grade ore. Journal of Korean Institute of Resources Recycling, 20, 30-44. 17. D-J. Kim, D. Pradhan*, J-G. Ahn, S-W. Lee, 2010: Enhancement of metals dissolution from spent refinery catalysts using adapted bacteria culture - Effects of pH and Fe(II). Hydrometallurgy, 103, 136-143. I.F.- 3.3 18. D. Pradhan*, D-J. Kim, J-G. Ahn, S-W. Lee, 2010: Microbial leaching process to recover valuable metals from spent petroleum catalyst using iron oxidizing bacteria. WASET-International Journal of Chemical and Molecular Engineering, 4, 232-236. 19. D. Pradhan, D-J. Kim*, J-G. Ahn, G. Roy Chaudhury, S-W. Lee, 2010: Kinetics and statistical behavior of metals dissolution from spent petroleum catalyst using acidophilic iron oxidizing bacteria. Journal of Industrial and Engineering Chemistry, 16, 866-871. I.F.- 4.841 20. D. Pradhan, D-J. Kim*, G. Roy Chaudhury, S-W. Lee, 2010: Bio-dissolution of Ni, V and Mo from spent petroleum catalyst using iron oxidizing bacteria. Journal of Environmental Science and Health, Part A, 45, 476-482. I.F.- 1.561 21. D. Pradhan, D. Mishra, D-J. Kim*, J-G. Ahn, G. Roy Chaudhury, S-W. Lee, 2010: Bioleaching kinetics and multivariate analysis of spent petroleum catalyst dissolution using two acidophiles. Journal of Hazardous Materials, 175, 267–273. I.F.- 6.434 22. S. Pal, D. Pradhan, T. Das*, L.B. Sukla, G. Roy Chaudhury, 2010: Bioleaching of low-grade uranium ore using Acidithiobacillus ferrooxidans. Indian Journal of Microbiology, 50, 70-75. I.F.- 1.31 23. D. Pradhan, D-J. Kim*, G. Roy Chaudhury, J-S. Sohn, S-W. Lee, 2010: Dissolution kinetics of complex sulfides using acidophilic microorganisms. Materials Transactions, 51, 413-419. I.F.- 0.8 24. D. Pradhan, D. Mishra, D-J. Kim*, G. Roy Chaudhury, S-W. Lee, 2009: Dissolution kinetics of spent petroleum catalyst using two different acidophiles. Hydrometallurgy, 99, 157-162. I.F.- 3.3 25. D-J. Kim, D. Pradhan*, G. Roy Chaudhury, J-G. Ahn, S-W. Lee, 2009: Bioleaching of complex sulfides concentrate and correlation of leaching parameters using multivariate data analysis technique. Materials Transactions, 50, 2318-2322. I.F.- 0.8 26. D. Pradhan, J-G. Ahn, D-J. Kim*, S-W. Lee, 2009: Effect of Ni2+, V4+ and Mo6+ concentration on iron oxidation by Acidithiobacillus ferrooxidans. Korean Journal of Chemical Engineering, 26, 736-741. I.F.- 2.199 27. D. Pradhan, D-J. Kim*, J-G Ahn, K-H Park, S-W Lee, 2008: Waste recycling through biological route-A Review. Journal of Korean Institute of Resources Recycling, 17, 3-15. 28. D-J. Kim, D. Pradhan*, K-H. Park, J-G. Ahn, S-W. Lee, 2008: Effect of pH and temperature on iron oxidation by mesophilic mixed iron oxidizing microflora. Materials Transactions, 49, 2389-2393. I.F.- 0.8 29. K. S. Rao*, A. Mishra, D. Pradhan, G. Roy Chaudhury, B. K. Mohapatra, T. Das , L. B. Sukla, B. K. Mishra, 2008: Percolation bacterial leaching of low-grade chalcopyrite using acidophilic microorganisms. Korean Journal of Chemical Engineering, 25, 524-530. I.F.- 2.199 30. D. Pradhan, S. Pal, L.B. Sukla, G. Roy Chaudhury, T. Das*, 2008: Bioleaching of low-grade copper ore using indigenous microorganism. Indian Journal of Chemical Technology, 15, 588-592. I.F.- 0.568 31. D.J. David, D. Pradhan and T. Das*, 2008: Evaluation of iron oxidation rate of Acidithiobacillus ferrooxidans in presence of heavy metal ions. Mineral Processing and Extractive Metallurgy (Trans. Inst. Min. Metall. C), 117, 56-61. I.F.- 0.52 List of Books 32. L.B. Sukla, E. Subudhi, D. Pradhan, 2018: The Role of Microalgae in Wastewater Treatment, Published by Springer-Nature, ISBN: 9789811315855. List of Book Chapters 33. D. Pradhan*, L.B. Sukla, 2018: Bioreduction of hexavalent chromium using microalgae. In L.B. Sukla, E. Subudhi, D. Pradhan (Eds), The Role of Microalgae in Wastewater Treatment, Published by Springer-Nature, ISBN: 9789811315855. 34. D. Pradhan*, L.B. Sukla, 2018: Removal of radon from radionuclides contaminated water using microalgae. In L.B. Sukla, E. Subudhi, D. Pradhan (Eds), The Role of Microalgae in Wastewater Treatment, Published by Springer-Nature, ISBN: 9789811315855. 35. L.B. Sukla, D. Pradhan*, T. Subbaiah, 2018: Future prospects of microalgae in wastewater treatment. In L.B. Sukla, E. Subudhi, D. Pradhan (Eds), The Role of Microalgae in Wastewater Treatment, Published by Springer-Nature, ISBN: 9789811315855. 36. S. Singh, L.B. Sukla, D. Pradhan*, 2018: Microalgae: gizmo to heavy metal removal. In L.B. Sukla, E. Subudhi, D. Pradhan (Eds), The Role of Microalgae in Wastewater Treatment, Published by Springer-Nature, ISBN: 9789811315855. List of Conference Proceedings 1. D. Pradhan, N. Devi, L.B. Sukla, 2018: Biosorption of hexavalent chromium using biomass of microalgae Scenedesmus sp. In International Conference on Environment, Chemistry and Biology (ICECB-18), Dubai, UAE, on July 07, 2018, Page 60-68, Published by ARDA Explore. ISBN: 9788193296639 2. L.B. Sukla, D. Pradhan, N. Devi, 2017: Energy Conservation and Renewable Energy Application in Hydrometallurgical Industries. In National Symposium on “Energy Conservation and Renewable Energy Application in Industries and Transportation (ECREAIT-2017)” Bhubaneswar, October 26, 2017, Page 44-53, Published by "National Resources Development Foundation(NRDF), Bhubaneswar, India. 3. L.B. Sukla, D. Pradhan, 2017: Dual purpose of microalgae as hexavalent chromium accumulator and biodiesel producer. In the international conference “6th World Congress on Biofuels and Bioenergy”, 5-6 September, 2017, London, UK. Published by “Journal of Bioremediation & Biodegradation, vol 8, issue 5(suppl), page 73. https://www.omicsonline.org/conference-proceedings/2155-6199-C1-009-009.pdf 4. L.B. Sukla*, D. Pradhan, S. Panda, 2017: Microbial Processing for Eco-Friendly Recovery of Metals. In National Symposium on “Advances in Environment Friendly Technology in Mineral Processing and Metals and Energy Extraction (AETMME - 2017), Bhubaneswar, June 22-23, 2017. Page 34-45. 5. D-J. Kim*, D Pradhan, S-W Lee, 2011: Acid and alkali washing of bioleaching residue to recover molybdenum from spent catalyst. In European Metallurgical Conference, EMC2011, at Dusseldorf, Germany, vol. 5, pp. 1864-1865. ISBN: 978-394027640-7 6. D Pradhan*, D-J. Kim, J-G. Ahn, S-W Lee, 2010: Comparison of leaching kinetics of metal values from spent refinery catalysts using both adapted and unadapted bacteria culture. In Korean Institute of Resource Recycling-2010, at Jungwon University, Chungcheongbuk, Republic of Korea, pp. 251. 7. A. K. Patra *, D. Pradhan, D-J. Kim, J-G. Ahn, 2010: Effect of pH of the medium on iron oxidation rate of Acidithiobacillus ferrooxidans. In Korean Institute of Resource Recycling-2010, at Jungwon University, Chungcheongbuk, Republic of Korea, pp. 257. 8. D. Pradhan*, D-J. Kim, J-G. Ahn, S-W. Lee: Microbial leaching process to recover valuable metals from spent petroleum catalyst using iron oxidizing bacteria. In International Conference on Environmental Science and Technology (ICEST 2010), Penang, Malaysia, pp. 180. 9. D. Pradhan*, D. Mishra, D-J. Kim, D. E. Ralph, 2009: Bioleaching kinetics of complex sulfides using acidophilic microorganisms. In 10th International Symposium on East Asian Resources recycling Technology (EARTH 2009), Ramada Plaza, Jeju, South Korea, pp. 476. ISBN 978-89-952527-4-1 93530 10. D. Mishra*, D. Pradhan, D-J. Kim, J-G. Ahn, D. E. Ralph, 2009: Comparison of bioleaching of spent catalyst using elemental sulfur and pyrite as two major substrates for acidophilic microorganisms. In 10th International Symposium on East Asian Resources recycling Technology (EARTH 2009), Ramada Plaza, Jeju, South Korea, pp. 312. ISBN 978-89-952527-4-1 93530 11. D. Pradhan*, D-J. Kim, J-G. Ahn, S-W. Lee, 2008: Effect of multi metal ions concentration on iron oxidation by Acidithiobacillus ferrooxidans. In Korean Institute of Resource Recycling-2008, at Kyungpook National University, Daegu, Republic of Korea, pp. 316. 12. L.B. Sukla*, D. Pradhan, S. Pal, T. Das, G. Roy Chaudhury, O.P. Chug, M. S. R. Prasad, 2005: Bacterial leaching of copper from Malanjkhand low-grade copper ore using Acidithiobacillus ferrooxidans. In National Conference on Low-grade Ore: A challenge and Opportunity-2005, at Hindustan Copper Limited, Malanjkhand, Madhya Pradesh, India. 13. S. Pal, D. Pradhan, T. Das*, G. Roy Chaudhury, L.B. Sukla, V.M. Pandey, V.N. Misra, 2005: Bioleaching of low-grade uranium ore using Acidithiobacillus ferrooxidans. In International Conference on Emerging Trends in Mineral Processing and Extractive Metallurgy: ICME-2005, at Institute of Minerals and Materials Technology (CSIR), Bhubaneswar, India, pp. 151. ISBN 81-7764-858-6 14. D. Pradhan, S. Pal, T. Das*, G. Roy Chaudhury, L.B. Sukla, V.M. Pandey, O.P. Chug, M.S.R. Prasad, V.N. Misra, 2005: Bioleaching of low-grade copper ore using indegenious microorganisms. In International Conference on Emerging Trends in Mineral Processing and Extractive Metallurgy: ICME-2005, at Institute of Minerals and Materials Technology (CSIR), Bhubaneswar, India, pp. 166. ISBN 81-7764-858-6 * For corresponding author Papers/Abstracts presented in conference 1. D Pradhan*, L.B. Sukla, Dual purpose of microalgae as hexavalent chromium accumulator and biodiesel producer. In 6th World Congress on Biofuels and Bioenergy held on September 05-06, 2017 at London, United Kingdom 2. D Pradhan*, L.B. Sukla, Bioreduction of Hexavalent Chromium Using Microalgae. In National Seminar on “The Role of Microalgae in Wastewater Treatment (RMWT-2017)” held on 21st February 2017 at Siksha ‘O’ Anusandhan University, Bhubaneswar, India. (Oral) 3. D Pradhan*, L.B. Sukla, Microalgae as a Potential Radionuclides Absorber from Contaminated Water. In National Seminar on “The Role of Microalgae in Wastewater Treatment (RMWT-2017)” held on 21st February 2017 at Siksha ‘O’ Anusandhan University, Bhubaneswar, India. (Poster) 4. L. B. Sukla*, D. Pradhan, T. Subbaiah, Future Prospects of Microalgae in Waste Water Treatment. In National Seminar on “The Role of Microalgae in Wastewater Treatment (RMWT-2017)” held on 21st February 2017 at Siksha ‘O’ Anusandhan University, Bhubaneswar, India. (Poster) 5. D Pradhan*, L.B. Sukla, K-H Baik Thin film of Yttria stabilized Zirconia on NiO using vacuum cold spraying process for SOFC. In International Conference on Smart Materials and Applications (ISMA 2016), December 15-17, 2016, Siksha ‘O’ Anusandhan University, Bhubaneswar, India. (Poster) 6. D Pradhan*, K-H Baik: Electrical and mechanical properties of YSZ film on NiO substrate using VCS technique for SOFC application. In National Workshop on 'Development of Nano materials for Energy, Environment and Sustainability-DNEES-2015, 2-3rd May 2015 organized by SOA University, Bhubaneswar, Odisha. (Oral) 7. D Pradhan*, D-J. Kim, S-W Lee: Sequential bioleaching and chemical leaching process for dissolving total Mo from Spent NiMo/Al2O3 Catalyst. In National Seminar on “Chemistry in Technology”, 8-9th December, 2012 organized by Orissa Chemical Society at Ravenshaw University, Cuttack, Odisha. (Oral) 8. D Pradhan*, D-J. Kim, J-G. Ahn, S-W Lee: Comparison of leaching kinetics of metal values from spent refinery catalysts using both adapted and unadapted bacteria culture. In Korean Institute of Resource Recycling-2010, at Jungwon University, Chungcheongbuk, Republic of Korea. (Poster) 9. A. K. Patra *, D. Pradhan, D-J. Kim, J-G. Ahn: Effect of pH of the medium on iron oxidation rate of Acidithiobacillus ferrooxidans. In Korean Institute of Resource Recycling-2010, at Jungwon University, Chungcheongbuk, Republic of Korea. (Poster) 10. D. Pradhan*, D-J. Kim, J-G. Ahn, S-W. Lee: Bioleaching of metal values from spent refinery catalysts using adapted bacteria culture. In Geosystem engineering-2010, Ramada Plaza, Jeju, South Korea. (Oral) 11. D. Pradhan*, A. K. Patra, , D-J. Kim, J-G. Ahn, S-W. Lee: Characterization of Korean uranium ore and isolation of native bacteria from same ore. In Geosystem engineering-2010, Ramada Plaza, Jeju, South Korea. (Poster) 12. D. Pradhan*, D-J. Kim, J-G. Ahn, S-W. Lee: Recovery of valuable metals from spent refinery catalyst using two different acidophiles. In Korean Institute of Metals (KIM-2010), Hyundai Resort, Hoengseong, South Korea. (Poster) 13. D-J. Kim*, D. Pradhan, J-G. Ahn, S-W. Lee: Ni, V, Mo and Al extraction from deoiled spent petroleum catalyst using both iron and sulfur oxidizing bacteria culture. In The Twenty-Fifth International Conference on Solid Waste Technology and Management, Philadelphia, PA U.S.A. (Poster) 14. D. Pradhan*, D-J. Kim, J-G. Ahn, S-W. Lee: Microbial leaching process to recover valuable metals from spent petroleum catalyst using iron oxidizing bacteria. In International Conference on Environmental Science and Technology (ICEST 2010), Penang, Malaysia. (Oral) 15. D. Pradhan*, D. Mishra, D-J. Kim, D. E. Ralph: Bioleaching kinetics of complex sulfides using acidophilic microorganisms. In 10th International Symposium on East Asian Resources recycling Technology (EARTH 2009), Ramada Plaza, Jeju, South Korea. ISBN 978-89-952527-4-1 93530 (Poster) 16. D. Mishra*, D. Pradhan, D-J. Kim, J-G. Ahn, D. E. Ralph: Comparison of bioleaching of spent catalyst using elemental sulfur and pyrite as two major substrates for acidophilic microorganisms. In 10th International Symposium on East Asian Resources recycling Technology (EARTH 2009), Ramada Plaza, Jeju, South Korea. ISBN 978-89-952527-4-1 93530 (Oral) 17. D. Pradhan*, D. Mishra, D-J. Kim, J-G. Ahn, S-W. Lee, G. Roy Chaudhury: Bioleaching of complex sulfides using iron oxidizing microorganisms. In Korean Institute of Metals and Materials-2009, at Changwon Exhibition and Convention Center, Changwon, Republic of Korea. (Poster) 18. D. Mishra*, D. Pradhan, D-J. Kim, J-G. Ahn, D.E. Ralph: Comparison of bioleaching of spent catalyst using elemental sulfur and pyrite as two major substrates for acidophilic microorganisms. In Korean Institute of Metals and Materials-2009, at Changwon Exhibition and Convention Center, Changwon, Republic of Korea. (Poster) 19. D-J. Kim*, D. Pradhan, J-G. Ahn, S-W. Lee: Processing of metal values from spent refinery catalyst using biologically generated ferric iron. In Minerals to Materials Conference: M2M-2008, at Central Metallurgical Research and Development Institute (CMRDI),Cairo, Egypt. (Poster) 20. D. Pradhan*, D-J. Kim, J-G. Ahn, S-W. Lee: Effect of multi metal ions concentration on iron oxidation by Acidithiobacillus ferrooxidans. In Korean Institute of Resource Recycling-2008, at Kyungpook National University, Daegu, Republic of Korea. (Poster) 21. D. Pradhan*, D-J. Kim, D. Mishra, K-H. Park, J-G. Ahn, S-W. Lee: Bioleaching of spent refinery catalyst using Acidithiobacillus ferrooxidans. In Geosystem-2008, at COEX, Seoul, Republic of Korea. (Poster) 22. D-J. Kim*, D. Pradhan, K-H. Park, S-W. Lee: Dissolution of metals from spent catalyst using iron oxidizing bacteria. In Twenty-Third International Conference on Solid Waste Technology and Management-2008, at Widener University 1 University Place Chester, Philadelphia, PA, USA, Journal of Solid Waste Technology and Management. (Poster) 23. L.B. Sukla*, D. Pradhan, S. Pal, T. Das, G. Roy Chaudhury, O.P. Chug, M. S. R. Prasad: Bacterial leaching of copper from Malanjkhand low-grade copper ore using Acidithiobacillus ferrooxidans. In National Conference on Low-grade Ore: A challenge and Opportunity-2005, at Hindustan Copper Limited, Malanjkhand, Madhya Pradesh, India. (Oral) 24. S. Pal*, D. Pradhan, T. Das, G. Roy Chaudhury, L.B. Sukla, V.M. Pandey, V.N. Misra: Bioleaching of low-grade uranium ore using Acidithiobacillus ferrooxidans. In International Conference on Emerging Trends in Mineral Processing and Extractive Metallurgy: ICME-2005, at Institute of Minerals and Materials Technology (CSIR), Bhubaneswar, India. ISBN 81-7764-858-6 (Oral) 25. D. Pradhan*, S. Pal, T. Das , G. Roy Chaudhury, L.B. Sukla, V.M. Pandey, O.P. Chug, M.S.R. Prasad, V.N. Misra: Bioleaching of low-grade copper ore using indegenious microorganisms. In International Conference on Emerging Trends in Mineral Processing and Extractive Metallurgy: ICME-2005, at Institute of Minerals and Materials Technology (CSIR), Bhubaneswar, India. ISBN 81-7764-858-6 (Oral)


Researchgroup, Institute, University, School, Company name

Assistant Professor, Biofuels and Bioprocessing Research Center (BBRC), Institute of Technical Education and research (ITER), Siksha ‘O’ Anusandhan (Deemed To Be University), Bhubaneswar-751030, Odisha, India


Researchgroup, Institute, Company, University, School webpage

https://www.soa.ac.in


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