Dr Bijoy Kumar Das

https://www.linkedin.com/in/dr-bijoy-kumar-das-901791165
Senior Scientist: International Advanced Research Centre for Powder Metallurgy and New Materials (ARCI), Hyderabad
Energy Storage


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Expert Bio

Dr. Bijoy Kumar Das is currently working as a Senior Scientist at the International Advanced Research Centre for Powder Metallurgy and New Materials (ARCI), Hyderabad. His research interest is in the development of Lithium and sodium ion batteries for electric vehicle and grid storage applications.  

Before joining ARCI, Dr. Das worked as a Scientist at Karlsruhe Institute of Technology (KIT), Germany, where he was actively involved on the development of high-capacity electrode materials for lithium-ion batteries and electrochemistry-driven magnetism programs. Dr. Das also worked as a visiting Scientist at KTH (Royal Institute of Technology), Sweden in the field of energy storage materials.

He holds a master’s degree in Physics from Utkal University, Odisha, and an M.Tech.  degree in Materials Science and Engineering from IIT, Kharagpur. He received his Ph. D degree in Physics in the field of lithium-ion batteries from the National University of Singapore, Singapore. Dr. Das has 2 book chapters, more than 30 academic publications, 1 Indian and  4  international patents and presented work at various international and national conferences/workshops and invited talks.   

Resources

Publications / Articles: 

  1. “Nickel Sulfide-Nickel Sulfoselenide Nanosheets as a Potential Electrode Material For High Performance Supercapacitor with Extended Shelf Life”, S. Caroline, Bijoy Das, S.S. Pramana, S.K. Batabyal, J. Energy Storage 68 (2023) 107812. 
  1. “High Energy-Power Characteristics of Hierarchical Nitrogen-Doped Mesoporous Carbon Decorated Sodium Vanadium Phosphate in Full cell level”, P Laxman Mani Kanta, M Venkatesh, Satyesh Kumar Yadav, Bijoy Das*, R Gopalan, Applied Energy 334 (2023)120665. 
  1. “Effect of microstructure and dopants on the electrochemical cyclic stability of layered P2-type Na0.67MnO2 prepared by different chemical routes: An experimental and theoretical study”, M. Venkatesh, G. Sudha Priyanga, S.Sharma, P. Laxman Mani Kanta, T. Thomas, R. Gopalan and Bijoy Das*, Ceramic International 49 (2023) 6654-6665. 
  1. “Investigation of magnetocaloric properties and critical behavior in layered type (Ce0.65La0.35)Mn2Ge2 room temperature ferromagnet”, Bijoy Das*, M. Siva Kumar, D. N. Kar, M. Palith and R. Gopalan, IEEE Transaction on Magnetics 58 (2022) 1-7. 
  1. “Unusual Case of Higher Cyclic Stability at a Wider Voltage Window in Sodium Vanadium Phosphate” P Laxman Mani Kanta, N Lakshmi Priya, Prajeet Oza, M Venkatesh, Satyesh Kumar Yadav, Bijoy Das*, G Sundararajan, R Gopalan, ACS Appl. Energy Mater. 4 (2021) 12581-12592. 
  1. “Magnetic and optical properties of green synthesized nickel ferrite nanoparticles and its application into photocatalysis” D. K. Dinkar, Bijoy Das*, R. Gopalan, B. S. Dehiya, Nanotechnology 32 (2021) 505725. 
  1. “Enhanced enactment of graphene amalgamated sodium cobalt phosphate composite electrode material in sodium-ion battery” Ganesan Savithiri, Venkatachalam Priyanka, Rengapillai Subadevi, Bijoy Das, Marimuthu Sivakumar, J. Taiwan Inst. Chem. Eng. 126 (2021) 197-204. 
  1. “Electric-Potential-Induced Complete Control of Magnetization in MnZnSb Metallic Ferromagnets” Martin Møller Greve, Bijoy Das, Ibrahim Issac, Ralf Witte, Di Wang, Robert Kruk, Horst Hahn, Subho Dasgupta, Adv. Electron. Mater. 7 (2021) 2000790. 
  1. “Scalable synthesis and kinetic studies of carbon coated sodium titanate: A promising ultra-low intercalation voltage anode for sodium ion battery”, P. Laxman Mani Kanta, M.Venktesh, Satyesh Kumar Yadav, Bijoy Das*, R. Gopalan, Trans. Ind. Nation. Acad. Eng. 5 (2020) 475-483. 
  1. “Magnetocaloric properties and critical exponents in anti-PbFCl type ZnMnSb room  temperature ferromagnet”, D.K. Dinkar, M. Palit, R. Gopalan, Bijoy Das*, J. Magn. Magn. Mater. 489 (2019) 165437. 
  1. “Investigation on polyvinyl alcohol and sodium alginate as aqueous binders forlithium titanium oxide anode in lithium ion batteries”, V.V.N. Phanikumar, V. Rao Rikka, Bijoy Das, R. Gopalan, B.V. A. Rao, R. Prakash. Ionics 25 (2019) 2549-2561. 
  1. “Effects of surfactant on the structural and magnetic properties of hydrothermally synthesized NiFe2O4 nanoparticles” D. K. Dinkar, Bijoy Das*, R. Gopalan, B S. Dehiya, Materials Chemistry and Physics 218 (2018) 70-76. 
  1. “Tamarind seed skin derived fiber like carbon nanostructures as novel anode material for lithium-ion battery” S. R. Sahu, D. Parimala Devi, V. V. N. Phanikumar, T. Ramesh, N. Rajalakshmi, G. Praveena, R. Prakash, Bijoy Das*, R. Gopalan, Ionics 24 (2018) 3413-3421. 
  1. “Toward on‐and‐off magnetism: reversible electrochemistry to control magnetic phase transitions in spinel ferrites” Subho Dasgupta, Bijoy Das, Qiang Li, Di Wang, Tessy T Baby, Sylvio Indris, Michael Knapp, Helmut Ehrenberg, Karin Fink, Robert Kruk, Horst Hahn, Adv. Funct. Mater. 26 (2016) 7507-7515. 
  1. “Enhancement of electrochemical performance by simultaneous substitution of Ni and Mn with Fe in Ni-Mn spinel cathodes for Li-ion batteries” Nilüfer Kiziltas-Yavuz, Murat Yavuz, Sylvio Indris, Natalia N Bramnik, Michael Knapp, Oleksandr Dolotko, Bijoy Das, Helmut Ehrenberg, A. Bhaskar, J. Power Sources 327 (2016) 507-518. 
  1. “Improved Li-storage performance of heat-treated InFeCoO4 spinel prepared by glycine assisted chemical route” B. Das*, MV Reddy, BVR Chowdari, Ionics 22 (2016) 1585- 1591. 
  1. “SnO and SnO· CoO nanocomposite as high capacity anode materials for lithium-ion batteries” B. Das*, MV Reddy, BVR Chowdari, Mater. Res. Bull. 74 (2016) 291-298.  
  1. Vanadium and Chromium Molecular Cluster Batteries (MCB): Li-Storage in Transition Metal Complexes J Rinck, B. Das, M Fichtner, ECS Meeting Abstracts, (2016) 246-246. 
  1. High-performance metal nitrides, MN (M = Cr, Co) nanoparticles for non-aqueous hybrid supercapacitors. B. Das*, M. Behm, G. Lindbergh, M. V. Reddy, B.V.R. Chowdari, Advanced Powder Technology 26 (2015) 783. 
  1. Intercalation-Driven Reversible Control of Magnetism in Bulk Ferromagnets. S. Dasgupta, B. Das, M. Knapp, R.A. Brand, H. Ehrenberg, R. Kruk and H. Hahn, Adv.Mater. 26 (2014) 4639-4644. (Cover page). 
  1. LiF/Fe/V2O5 nanocomposite as high capacity cathode for Lithium-ion batteries, B. Das*, A.Pohl, VSK Chakravadhanula,C. Kübel, M. Fichtner, J. Power Sources 267 (2014) 203-211. 
  1. A disc- like Mo- metal cluster compound, Co2Mo3O8 as high-capacity anode for Lithium ion batteries, B. Das*, M. V. Reddy, S. Tripathy, BVR Chowdari, RSC Advances 4 (2014) 33883. 
  1. Oxidation state and local structure of a high-capacity LiF/Fe(V2O5) conversion cathode for Li-ion batteries, A.H. Pohl, A.A. Guda, V.V. Shapovalov, R. Witte, B. Das, F. Scheiba, J. Rothe, A.V. Soldatov, M. Fichtner, Acta Mater. 68 (2014) 179. 
  1. Disc-Like Mo-Metal Cluster Compound, Co2Mo3O8, as a High-Capacity Anode for Lithium-Ion Batteries. B. Das, M. V. Reddy, S. Tripathy, B. V. R. Chowdari , ChemInform 49 (2014); DOI: 10.1002/chin.201449010. 
  1. Li- storage of Fe3O4/C composite prepared by one- step carbothermal reduction method, B. Das, M. V. Reddy, B.V.R. Chowdari, J. Alloys Compd. 565 (2013) 90. 
  1. X-ray absorption spectroscopy and energy storage of Ni- doped Cobalt Nitride;(Ni0.33Co0.67N) prepared by a simple synthesis route, B. Das, M. V. Reddy, B.V.R. Chowdari, Nanoscale, 5 (2013) 1961. 
  1. Synthesis of porous-CoN nanoparticles and their application as a high-capacity anode for lithium-ion batteries, B. Das, M. V. Reddy, G.V. Subba Rao, B.V.R. Chowdari, J. Mater. Chem., 22 (2012) 17505. 

 

  1. Synthesis and Li-storage behavior of CrN nanoparticles, B. Das, M. V. Reddy, G.V. Subba Rao, B.V.R. Chowdari, RSC Adv., 2 (2012) 9022. 29.  

 

  1. “Nano- phase tin hollandites, K2(M2Sn6)O16 (M = Co, In) as anodes for lithium ion batteries” B. Das, M. V. Reddy, G.V. Subba Rao, B.V.R. Chowdari, J. Mater. Chem., 21(2011) 1171. 
  1. “Nano- composites, SnO(VO)x as anodes for lithium ion batteries” B. Das, M.V. Reddy, GV Subba Rao, BVR. Chowdari, J. Solid State Electrochem. 15 (2011) 259. 
  1. “Nanoflake CoN as a high -capacity anode for Li- ion batteries” B. Das, M. V. Reddy, P. Malar, Osipowicz Thomas, G.V. Subba Rao, B.V.R. Chowdari, Solid State Ionics, 180 (2009) 1061. 
  1. “Carbothermal synthesis, spectral and magnetic characterization and Li- cyclability of the Mo- cluster compounds, LiYMo3O8 and Mn2Mo3O8” B. Das, M.V. Reddy, C. Krishnamoorthy, S. Tripathy, R. Mahendiran, G.V. Subba Rao, B.V. R. Chowdari, Electrochim. Acta, 54 (2009) 3360. 
  1. “Synthesis of Mo- cluster compound, LiHoMo3O8 by Carbothermal reduction method and it’s reactivity towards Li”, B. Das, M. V. Reddy, G.V. Subba Rao, B.V.R. Chowdari, J. Solid State Electrochem., 12 (2008) 953-959. 
  1. “Hollandite-type compounds, K2(In2Sn6)O16 and K2(Co2Sn6)O16 as anodes for lithium batteries” B. Das, M. V. Reddy, G.V. Subba Rao, B.V.R. Chowdari. Proceedings of the 11th Asian conference on Solid State Ionics, (2008) 69-77. 
  1. “Li-cycling behavior of Mo-cluster compounds, A2Mo3O8 (A = Zn, Co)” B. Das, M. V. Reddy, G. V. Subba Rao, B. V. R. Chowdari, 12th Asian Conference on Solid State Ionics (2010), China. 

 

Projects:  

  1.  Low-cost sodium ion battery for the grid and off-grid storage applications. 
  1. A novel approach toward developing high energy density and low-cost cathode materials fabricating micro-sized all-solid-state sodium-ion batteries. 

Patents (Filed / Granted): 

  1. Microwave assisted sol-gel process for preparing in-situ carbon coated electrode materials and the product thereof”, Bijoy Kumar Das, P. Laxman Manikanta, N. Lakshmipriya, R. Gopalan, G. Sundararajan, Japanese Patent: 2020-550159 (Granted). 
  1. Microwave assisted sol-gel process for preparing in-situ carbon coated electrode materials and the product thereof”, Bijoy Kumar Das, P. Laxman Manikanta, N. Lakshmipriya, R. Gopalan, G. Sundararajan, Korean Patent: 10-2497808. (Granted). 
  1. Microwave assisted sol-gel process for preparing in-situ carbon coated electrode materials and the product thereof”, Bijoy Kumar Das, P. Laxman Manikanta, N. Lakshmipriya, R. Gopalan, G. Sundararajan, European Patent: 20763813.1. 
  1. “Microwave assisted sol-gel process for preparing in-situ carbon coated electrode materials and the product there of,” Bijoy Kumar Das, P. Laxman Manikanta, N. Lakshmipriya, R. Gopalan, G. Sundararajan, Indian Patent 201911008004. 

Awards & Achievement

Best Poster
Industry-Academia Conclave on Energy Storage organized by DST, Govt. of India held on 30th November 2019 at MNIT, Jaipur.
Best Poster
Second International Meeting on Clean Energy Materials Innovation Challenge IC6, Mission Innovation organized by DST, Govt. of India on 21- 22nd February 2019 at IIT Delhi.

Education

National University of Singapore, Singapore

PhD., degree in Physics

2010

IIT, Kharagpur

MTech., Materials Science and Engineering

2006

Utkal University, Odisha

MSc., Physics

2004

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