Publications

2021
  • Ray Ajusmita, Banerjee Sanjukta, Das Debabrata, Microalgal bio-flocculation: present scenario and prospects for commercialization, Environmental Science and Pollution Research, 2021 (DOI: 10.1007/s11356-021-13437-0)
  • Basak Nitai, Jana AK, Das D, Photofermentative biohydrogen generation from organic acids by Rhodobacter sphaeroides O.U.001: CFD modelling of hydrodynamics and temperatur, Biotechnology and Applied Biochemistry, 2021 (DOI: https://doi.org/10.1002/bab.2151)
  • Yadav Santoshnambi, Singh Vaishali, Mahata Chandan and Das Debabrata, Optimization for simultaneous enhancement of biobutanol and biohydrogen production , International Journal of Hydrogen Energy, 46: 3726-3741, 2021
  • Mahata Chandan, Dhar Suman, Ray Subhabrata, Das Debabrata, Flocculation characteristics of extracellular polymeric substance (EPS) obtained from anaerobic sludge extracted by different methods on microalgae harvesting for lipid utilization, Biochemical Engineering Journal, 167: 107898, 2021
  • Lal Amrit, Banerjee Sanjukta, Das Debabrata, Aspergillus sp . assisted bioflocculation of Chlorella MJ 11/11 for the production of biofuel from the algal-fungal co-pellet, Separation and Purification Technology (https://doi.org/10.1016/j.seppur.2021.118320)
  • Radhakrishnan Rokesh, Banerjee Sanjukta, Banerjee Srijoni, Singh Vaishali, Das Debabrata, Sustainable approach for the treatment of poultry manure and starchy wastewater by integrating dark fermentation and microalgal cultivation, Journal of Material Cycles and Waste Management (https://doi.org/10.1007/s1016 3-021-01173-z)
  • Banerjee Sanjukta, Ray Ayusmita, Das Debabrata, Optimization of Chlamydomonas reinhardtii cultivation with simultaneous CO2 sequestration and biofuels production in a biorefinery framework, Science of the Total Environment, 762: 143080, 2021.
  • Banerjee Srijoni, Desai Trunil S, Srivastava Shireesh, Das Debabrata, 13C metabolic flux analysis (MFA) to find out the metabolic fluxes of biomass production and lipid accumulation in Neochloris oleoabundans UTEX 1185, Journal of Applied Phycology (DOI: 10.1007/s10811-021-02402-6)

2020
  • Varanasi J L, Prasad Sanjay, Singh Harshita, and Das Debabrata, Improvement of bioelectricity generation and microalgal productivity with concomitant wastewater treatment in ?at-plate microbial carbon capture cell, Fuel, 263: 116696, 2020
  • Rout Swagatika, Parwaiz Shaikh , Nayak Arpan K, Varanasi Jhansi L, Pradhanb Debabrata, Das Debabrata, Improved bioelectricity generation of air-cathode microbial fuel cell using sodium hexahydroxostannate as cathode catalyst, Journal of Power Sources, 450:227679, 2020
  • Balachandar G, Varanasi Jhansi L, Singh Vaishali, Singh Harshita, Das Debabrata, Biological hydrogen production via Dark fermentation: A holistic approach from Lab-scale to Pilot-scale, International Journal of Hydrogen Energy, 45: 5202-5215, 2020
  • Varanasi J L and Das D, Maximizing biohydrogen production from lignocellulosic biomass by coupling dark fermentation and electrohydrogenesis, International Journal of Hydrogen Energy , 45: 5227-5238, 2020
  • Banerjee S, Dasgupta S, Das D and Atta A, Influence of photobioreactor configuration on microalgal biomass production, Bioprocess and Biosystems Engineering , 43: 1487-1497, 2020
  • Mahata C, Ray S and Das D, Optimization of dark fermentative hydrogen production from organic wastes using acidogenic mixed consortia, Energy Conversion and Management 219: 113047, 2020
  • Singh Vaishali, Yadav Santoshnambi, Sen Ramkrishna and Das Debabrata, Concomitant hydrogen and butanol production via co-digestion of organic wastewater and nitrogenous residues, International Journal of Hydrogen Energy, 45: 24477-24490, 2020
  • Banerjee S, Banerjee S, Ghosh A and Das D, Maneuvering the genetic and metabolic pathway for improving biofuel production in algae: Present status and future prospective, Renewable and Sustainable Energy Reviews, 133: 110155, 2020
  • Mahata Chandan, Dhar Suman, Ray Subhabrata, Das Debabrata, Effect of thermal pretreated organic wastes on the dark fermentative hydrogen production using mixed microbial consortia, Fuel, 284: 119062, 2020

2019
  • Banerjee S, Singh H, Das D, Atta A, Process optimization for enhanced biodiesel production by Neochloris oleoabundans UTEX 1185 with concomitant CO2 sequestration, I & EC Research, 58: 15760-15771, 2019
  • Banerjee S, Rout S, Banerjee S, Atta A and Das D Fe?2O?3 nano catalyst aided transesterification for biodiesel production from lipid - intact wet microalgal biomass : A biorefinery approach, Energy Conversion and Management, 195:844-853, 2019.
  • Das D, Commercialization of biohydrogen production process from distillery effluent, International Journal of Hydrogen Energy ,44:18657-18658, 2019
  • Veerubheerubhotla R, Nag S, and Das D, Internet of Things temperature sensor powered by bacterial fuel cells on paper, Journal of Power Sources , 438: 226947, 2019.
  • Singh Vaishali, Singh Harshita, and Das Debabrata, Optimization of the medium composition for the improvement of hydrogen and butanol production using Clostridium saccharoperbutylacetonicum DSM 14923, International Journal of Hydrogen Energy , 44: 26905-28919, 2019.
  • Singh Harshita, Varanasi Jhansi L. Banerjee Srijoni and Das Debabrata, Production of carbohydrate enrich microalgal biomass as a bioenergy feedstock, Energy , 188: 116039, 2019.

2018
  • Varanasi JL, Kumari S and Das D, Improvement of energy recovery from water hyacinth by using integrated system, International Journal of Hydrogen Energy, 43: 1303-1318, 2018.
  • Rout S, Nayak AK, Varanasi JL, Pradhan P and Das D, Enhanced energy recovery by manganese oxide/reduced graphene oxide nanocomposite as an air-cathode electrode in the single-chambered microbial fuel cell, Journal of Electroanalytical Chemistry, 815: 1-5,2018
  • Kumari S, Das D. Biohythane production from sugarcane bagasse and water hyacinth: a way towards promising green energy production, Journal of Cleaner Production ,207: 689-701, 2018
  • Lal Amrit, Ghosh Supratim, and Das Debabrata, Improvement in electrically induced biomass harvesting of Chlorella sp. MJ 11/11 for bulk biomass production Journal of Applied Phycology, 30: 979-993, 2018.

2017
  • Ghosh Supratim, Roy Shantonu, and Das Debabrata, Enhancement in lipid content of Chlorella sp. MJ 11/11 from the spent medium of thermophilic biohydrogen production process, Bioresource Technology, 223: 219-226, 2017.
  • Varanasi JL, Sinha Pallavi and Das D, Maximizing power generation from dark fermentation effluents in microbial fuel cell by selective enrichment of exoelectrogens and optimization of anodic operational parameters, Biotechnology Letters, 39:721730, 2017).
  • Mitra R, Balachandar G., Singh V, Sinha P and Das D, Improvement in energy recovery by dark fermentative biohydrogen followed by biobutanol production process using obligate anaerobes, International Journal of Hydrogen Energy, 42: 4880-4992, 2017.
  • Ramya Veerubhotla, Debabrata Das, Debabrata Pradhan, A Flexible and Disposable Battery Powered by Bacteria Using Eyeliner Coated Paper Electrodes, Biosensors and Bioelectronics, 2017 94: 464-470, 2017.
  • Kumari S, Das D. Improvement of biohydrogen production using acidogenic culture, International Journal of Hydrogen Energy, 42: 4083-4094, 2017.
  • Mishra Preeti, Balachandar G. and Das Debabrata, Improvement in biohythane production using organic solid waste and distillery effluent, Waste Management, 66: 70-78, 2017.
  • Ghosh Supratim, Banerjee Srijoni, and Das Debabrata,Process intensification of biodiesel production from Chlorella sp. MJ 11/11 by single step transesterification, Algal Research, 27: 12-20, 2017.
  • Das D, A road map on biohydrogen production from organic wastes, INAE Letters, 1-18, 2017.

2016
  • Sinha Pallavi, Roy Shantonu and Das Debabrata, Genomic and Proteomic approaches for dark fermentative biohydrogen production, Renewable & Sustainable Energy Reviews, 56: 1308-1321, 2016.
  • Shantonu Roy, Debabrata Das, Biohythane production from organic wastes: Present state of art, Environmental Science and Pollution Research, 23: 9391-9410, 2016.
  • Lal A and Das D. Biomass production and identification of suitable harvesting technique for Chlorella sp. MJ 11/11 and Synechocystis PCC 680, 3 Biotechnology 6(1), 1-10, 2016.
  • Chakraborty S, Mohanty D, Ghosh, S, and Das D. Improvement of lipid content of Chlorella minutissima MCC 5 for biodiesel production,Journal of Bioscience and Bioengineering, 122: 294-300, 2016.
  • Basak N, Jana AK and Das D. CFD modeling of hydrodynamics and optimization of photofermentative hydrogen production byRhodopseudomonas palustris DSM123 in annular photobioreactor, International Journal of Hydrogen Energy, 41: 7301-7317, 2016.
  • Varanasi JL, Nayak AK, Sohn Y, Pradhan D and Das D. Improvement of power generation of microbial fuel cell by integrating tungsten oxide electrocatalyst with pure or mixed culture biocatalysts, Electrochimica Acta, 199: 154-163,2016.
  • Kumar Kanhaiya, Ghosh Supratim, Angelidaki Irini , Holdt Susan L., Karalkashev Dimitar B., Morales Merlin Alvarado and Das Debabrata, Recent developments on biofuels production from microalgae and macroalgae, Renewable & Sustainable Energy Reviews, 65: 235-249, 2016.
  • Sinha Pallavi, Gaurav Kartik, Roy Shantonu, Balachandar G and Das Debabrata, Improvement of biohydrogen production with novel augmentation strategy using different organic residues, International Journal of Hydrogen Energy, 41: 14015-14025, 2016.
  • Kumari Sinu and Das Debabrata Das, Biologically pretreated sugarcane top as a potential raw material for the enhancement of gaseous energy recovery by two stage biohythane process, Bioresource Technology, 218: 1090-1097, 2016.
  • Kumar Anaparthi Ganesh, Bera Debaditya, Banerjee Susanta, Ramya V, and Das Debabrata, Sulfonated poly(ether imide)s with fluorenyl and trifluoromethyl groups: Application in microbial fuel cell (MFC), European Polymer Journal, 83: 114-128, 2016.
  • Das D. Improvement of gaseous energy recovery from organic wastes using biohythane process, Journal of Bioprocessing & Biotechniques, 6, 45, 2016.

2015
  • Ghosh S, Roy S and Das D, Improvement of Biomass Production by Chlorella sp. MJ 11/11 for Use as a Feedstock for Biodiesel, Applied Biochemistry and Biotechnology, 175:3322-3335, 2015.
  • Pandit S, Khilari S, Roy S, Ghangrekar M. M., Pradhan D, Das D, Reduction of start-up time through bioaugmentation process in microbial fuel cells using a newly isolated microbial strain in anode, Water Science and Technology, 72.1: 106-115, 2015.
  • Varanasi J L, Roy S, Pandit S, Das D, Improvement of energy recovery from cellobiose by thermophillic dark fermentative hydrogen production followed by microbial fuel cell, International Journal of Hydrogen Energy, 40: 8311-8321, 2015.
  • Veerubhotla Ramya, Bandopadhyay Aditya, Das Debabrata and Chakraborty Suman, Instant power generation from an air-breathing paper and pencil based bacterial bio-fuel cell, Lab on a Chip, 15: 2580-2583,2015.
  • Sinha Pallavi, Roy Shantonu, Das Debabrata, Role of formate hydrogen lyase complex in hydrogen production in facultative anaerobes, International Journal of Hydrogen Energy, 40: 8806- 8815, 2015.
  • Roy Shantonu, Banerjee Debopam, Dutta Mainak, Das Debabrata, Metabolically redirected biohydrogen pathway integrated with biomethanation for improved gaseous energy recovery, Fuel, 158: 471-478, 2015.
  • Dev Subhabrata, Roy Shantonu , Das Debabrata, Bhattacharya Jayanta, Improvement of Biological Sulfate Reduction by Supplementation of Nitrogen Rich Extract Prepared from Organic Marine Wastes, International Biodeterioration & Biodegradation, 104: 264-273, 2015.
  • Kumari Sinu and Das Debabrata, Improvement of gaseous energy recovery from sugarcane bagasse by Dark fermentation followed by Biomethanation process, Bioresource Technology 194: 354-363, 2015.
  • Das B K, Roy S, Dev S, Das D and Bhattacharya J. Improvement of the degradation of sulphate rich waste water using sweetmeat waste (SMW) as nutrient supplement, Journal of Hazardous Materials, 300: 796-807, 2015.
  • Khilari Santimoy, Pandit Soumya, Varanasi Jhansi L., Das Debabrata, and Pradhan Debabrata, Bifunctional Manganese Ferrite/Polyaniline Hybrid as Electrode Material for Enhanced Energy Recovery in Microbial Fuel Cell, ACS Applied, Materials and Interfaces, 7: 20657-20666, 2015.
  • Mishra Preeti, Roy Shantonu, Das Debabrata, Comparative evaluation of the hydrogen production by mixed consortium, synthetic co-culture and pure culture using distillery effluent, Bioresource Technology, 198: 593-602, 2015.

2014
  • Pandit A, Khilaro S, Bera K, Pradhan D, and Das D, Application of PVA-PDDA polymer electrolyte composite anion exchange membrane separator for improved bioelectricity production in a single chambered microbial fuel cell, Chemical Engineering Journal, 257: 138-147, 2014.
  • Kumar K, Nag Dasgupta C and Das D. Cell growth kinetics of Chlorella sorokiniana and nutritional values of its biomass, Bioresource Technology 167:358-366, 2014.
  • Basak N, Jana AK and Das D, Optimization of molecular hydrogen production by Rhodobacter sphaeroides O.U.001 in the annular photobioreactor using response surface methodology, International Journal of Hydrogen Energy 39: 11889-11901, 2014.
  • Pandit A, Khilaro S, Pradhan D, and Das D, Improvement of power generation using Shewanella putrefaciens mediated bioanode in a single chambered Microbial Fuel Cell: Effect of different anodic operating conditions, Bioresource Technology 166: 451-457, 2014.
  • Eldin J, Kumar K and Das D, Physicochemical parameters optimization and purification of phycobiliproteins from the isolated Nostoc sp., Bioresource Technology 166: 541-547, 2014.
  • Das D* and Laksmi Narasu M. Forward of International Conference on Advances in Biological Hydrogen Production and Applications (ICABHPA 2012), International Journal of Hydrogen Energy 39: 7467, 2014.
  • Kumar K, Banerjee D and Das D. Carbon dioxide sequestration from industrial flue gas by, Chlorella sorokiniana, Bioresource Technology, 152: 225-233, 2014.
  • Ghadge A, Pandit A, Das D and Ghangrkar M M, Performance of Air Cathode Earthen Pot Microbial Fuel Cell for Simultaneous Wastewater Treatment with Bioelectricity Generation, International Journal of Environmental Technology and Management, 17: 143-153, 2014.
  • Roy S, Vishnuvardhan M and Das D. Improvement of hydrogen production by thermophilic isolate
  • Thermoanaerobacterium thermosaccharolyticum IIT BT-ST1, International Journal of Hydrogen Energy, 39: 7541-7552, 2014.
  • Mishra P and Das D, Biohydrogen production from Enterobacter cloacae IIT-BT 08 using distillery effluent, International Journal of Hydrogen Energy, 39: 7496-7507, 2014.
  • Pandit A, Patel V, Ghangrkar M M and Das D, Wastewater as anolyte for bioelectricity generation in graphite granule anode single chambered microbial fuel cell: effect of current collector, International Journal of Environmental Technology and Management, 17: 252-267, 2014.
  • Pandit S, Balachandar G and Das D. Improvement of energy recovery from cane molasses by dark fermentation followed by microbial fuel cells, Frontiers of Chemical Science and Engineering, 8: 43-54, 2014.
  • Khilaro S, Pandit S, Das D and Pradhan D. Manganese cobaltite/polypyrrole nanocomposite-based air-cathode for sustainable power generation in the single-chambered microbial fuel cells , Biosensors and Bioelectronics, 54:534-540, 2014.
  • Roy S, Kumar K, Ghosh S and Das D. Thermophilic biohydrogen production using pretreated algal biomass as substrate, Biomass and Bioenergy, 61:157-166, 2014.
  • Nayak BK, Roy S and Das D, Biohydrogen production from algal biomass (Anabaena sp. PCC 7120) cultivated in airlift photobioreactor,International Journal of Hydrogen Energy, 39: 7553-7560, 2014.
  • Basak N, Jana AK, Das D and Saikia D. Photofermentative molecular biohydrogen production by purple-non-sulfur (PNS) bacteria in various modes: the present progress and future perspective, International Journal of Hydrogen Energy, 39: 6853-6871, 2014.
  • Roy S, Vishnuvardhan M and Das D. Continuous thermophilic biohydrogen production in packed bed reactor, Applied Energy, 136: 51-58, 2014.

2013
  • Khanna N and Das D, Biohydrogen production by dark fermentation, WIREs Energy Environ 2013, 2: 401-421
  • Kumar K, Sirasale A and Das D, Use of image analysis tool for the development of light distribution pattern inside the photobioreactor for the algal cultivation, Bioresource Technology, 143: 88-95, 2013
  • Nayak B.K. and Das D. Improvement of carbon dioxide sequestration in photo-bioreactor using Anabaena sp. PCC 7120, Process Biochemistry, 148: 1126-1132, 2013
  • Kumar K, Roy S and Das D. Continuous mode of carbon dioxide sequestration by C. sorokiniana and subsequent use of its biomass for hydrogen production by E. cloacae IIT-BT, Bioresource Technology, 145: 116-122, 2013.
  • Khilari S, Pandit S, Ghangrekar MM, Das D and Pradhan D. Graphene supported a-MnO2 nanotubes as cathode catalyst for improved power generation and wastewater treatment in single-chambered microbial fuel cells, Royal Society of Chemistry Advances, 3, 7902-7911, 2013.
  • Das D*. International Conference on Algal Biorefinery: A potential source of food, feed, biochemicals, biofuels and biofertilizers (ICAB 2013), International Journal of Hydrogen Energy, 38, 5410-7, 2013.
  • Laksmi Narasu M, Himabindu V, Das D*. International Conference on Advances in Biological Hydrogen Production and Applications (ICABHPA 2012), International Journal of Hydrogen Energy 38, 6010-2, 2013.
  • Borse P and Das D*, Advance Workshop Report on Evaluation of Hydrogen Producing Technologies for Industry Relevant Application, ARCI, Hyderabad, India, 8-9 February 2013, International Journal of Hydrogen Energy 38, 11470-11471, 2013.
  • Khilari S, Pandit S, Ghangrekar MM, Pradhan D and Das D. Graphene Oxide-Impregnated PVA-STA Composite Polymer Electrolyte Membrane Separator for Power Generation in a Single-Chambered Microbial Fuel Cell, Industrial & Engineering Chemistry Research, 52 (33): 11597-606 , 2013.
  • Nayak BK, Mukherjee G, Savitri RD, and Das D. Modeling of Biomass Production by Anabaena under Varying Phosphate Concentrations and Light Regime, American Journal of Biomass and Bioenegy, 2:41-52, 2013.
  • Khanna N. Ghosh AK, Huntemann M, Deshpande S, Han J, Chen A, Kyrpides N, Mavrommatis K, Szeto E, Markowitz V, Ivanova N, Pagani I, Pati A, Pitluck S, Nolan M, Woyke T, Teshima H, Chertkov O, Daligault H, Davenport K, Gu W, Munk C, Zhang X, Bruce D, Detter C, Xu Y, Quintana B, Reitenga K, Kunde Y, Green L, Erkkila T, Han C, Brambilla E-M, Lang E, Klenk H-P, Goodwin L, Chain P, Das D. Complete genome sequence of Enterobacter sp. IIT-BT 08: A potential microbial strain for high rate hydrogen production, Stand. Genomic Sci. 9: 359-369, 2013.
  • Mukherjee, G, Nayak BK and Das D, Cyanobacteria as a valuable source of antiviral, antibacterial and antifungal compounds an overview, Algological Studies Journal, 143: 3-25, 2013.

2012
  • Pandit S, Ghosh, S, Ghangrekar MM, Das D. Performance of an anion exchange membrane in association with cathodic parameters in a dual chamber microbial fuel cell, International Journal of Hydrogen Energy, 37:7383-7392, 2012.
  • Kumar K, Das D, Growth characteristics of Chlorella sorokiniana in airlift and bubble column photobioreactors Bioresource Technology, 116:307-313, 2012.
  • Khanna N, Kumar K, Todi S, Das D, Characteristics of cured and wild strains of Enterobacter cloacae IIT-BT 08 for the improvement of biohydrogen production, International Journal of Hydrogen Energy,37:11666-11676, 2012.
  • Pandit S, Nayak B, Das D, Microbial Carbon capture cell using cynobacteria for simultaneous power generation,carbon dioxide sequestration and waste water treatment, Bioresource Technology, 107:97-102, 2012.
  • Roy S and Das D, Improvement of hydrogen production with thermophilic mixed culture from rice spent wash of distillery industry, International Journal of Hydrogen Energy, 37:15867-15874, 2012.

2011
  • Ghosh S, Joy S, Das D. Multiple parameters optimization for maximization of hydrogen production using defined microbial consortia, Indian Journal of Biotechnology, 10:196-201, 2011.
  • Kumar K, Nag Dasgupta C, Nayak B, Lindblad P, Das D. Development of suitable photobioreactors for CO2 sequestration addressing global warming using green algae and cyanobacteria, Bioresource Technology, 102:4945-4953, 2011.
  • Khanna N, Kotay SM, Gilbert JJ, Das D. Improvement of biohydrogen production by Enterobacter cloacae IIT-BT 08 under regulated pH, Journal of Biotechnology, 152:9-15, 2011.
  • Pandit S, Sengupta A, Kale S, Das D. Performance of electron acceptor in catholyte of a two-chambered microbial fuel cell using anion exchange membrane, Bioresource Technology, 102;2736-2744, 2011.
  • Gilbert JJ, Ray S, Das D. Hydrogen Production Using Rhodobacter sphaeroides (O.U. 001) In A Flat Panel Rocking Photobioreactor, International Journal of Hydrogen Energy, 36;3434-3441, 2011.
  • Nath K, Das D. Modeling and optimization of fermentative hydrogen production, Bioresource Technology, 102;8569-8581,2011.
  • Khanna N,Nag Dasgupta C,Mishra P, Das D, Homologous over expression of [FeFe] hydrogenase in Enterobacter cloacae IIT-BT 08 to enhance hydrogen gas production from cheese whey, International Journal of Hydrogen Energy, 36;15573-15582, 2011.

2010
  • Daniel, David K., B., Raiyani Himanshu and Das, Debabrata, Neural Network Modeling for Estimation of Cell Mass during Submerged Glucoamylase Fermentation. The IUP Journal of Chemical Engineering, 2;61-70, 2010
  • Kotay SM, Das D. Microbial hydrogen production from sewage sludge bioaugmented with a constructed microbial consortium, International Journal of Hydrogen Energy, 35;10653-10659, 2010
  • Dasgupta CN, Gilbert JJ, Lindblad P, Heidorn T, Borgvang SA, Skjanes K, Das D, Recent trends on the development of photobiological processes and photobioreactors for the improvement of hydrogen production, International Journal of Hydrogen Energy, 35;10218-38, 2010

2009
  • Das Debabrata*. Advances in biohydrogen production processes: An approach towards commercialization, International Journal of Hydrogen Energy, 34:7349-57, 2009.
  • Basak Nitai*, Das Debabrata, Photofermentative hydrogen production using purple-non-sulfur bacteria Rhodobacter sphaeroides O.U.001in an annular photobioreactor: A case study, Biomass and Bioenergy, 33:911-919, 2009.
  • Blackburn JM, Liang Y, Das D. Biohydrogen from Complex Carbohydrate Wastes as Feedstocks-Cellulose degraders from a unique series enrichment, International Journal of Hydrogen Energy, 34:7428-34, 2009.
  • Pandey A, Sinha P, Kotay SM, Das D. Isolation and evaluation of a high H2-producing lab isolate from cow dung, International Journal of Hydrogen Energy, 34:7483-8, 2009.
  • Mohan Y, Das D. Effect of ionic strength, cation exchanger and inoculum age on the performance of Microbial Fuel Cells, International Journal of Hydrogen Energy, 34:7542-6, 2009.
  • Dutta T, Das AK, Das D. Purification and characterization of [Fe]-hydrogenase from high yielding hydrogen-producing strain, Enterobacter cloacae IIT-BT08 (MTCC 5373), International Journal of Hydrogen Energy, 34:7530-7, 2009.
  • Kotay SM, Das D. Novel dark fermentation involving bioaugmentation with constructed bacterial consortium for enhanced biohydrogen production from pretreated sewage sludge, International Journal of Hydrogen Energy, 34:7489-96, 2009.
  • Nath K, Das D*. Effect of light intensity and initial pH during hydrogen production by an integrated dark and photofermentation process, International Journal of Hydrogen Energy, 34:7497-501, 2009.
  • Mohanty K, Das D, Biswas MN. Abatement of Cr(VI) rich wastewater in a novel multistage external loop airlift reactor using acidified activated carbon. International Journal of Environment and Waste Management, 2009.

2008
  • Das D*, Veziroglu TN. Advances in biological hydrogen production processes, International Journal of Hydrogen Energy, 33:6046-57, 2008.
  • Nath K, Muthukumar M, Kumar A, Das D*. Kinetics of two-stage fermentation process for the production of hydrogen. International Journal of Hydrogen Energy, 33:1195-1203, 2008.
  • Das D*, Khanna N, Veziroglu TN. Recent developments in biological hydrogen production processes, Chemical Industry & Chemical Engineering Quarterly (CI & CEQ), 14 (2): 57-67, 2008.
  • Mohan Y, S. Manoj Muthu Kumar, Das D*. Electricity generation using microbial fuel cells, International Journal of Hydrogen Energy, 33:423-426, 2008.
  • Kotay SM, Das D*. Biohydrogen as a renewable energy resource - prospects and potentials, International Journal of Hydrogen Energy, 33:258-263, 2008.
  • Mohanty K, Das D, Biswas MN. Treatment of phenolic wastewater in a novel multi-stage external loop airlift reactor using activated carbon, Separation and Purification Technology, 58: 311-319, 2008.
  • Mohanty K, Das D, Biswas MN. Utilization of Arachis Hypogaea Hull, an Agricultural Waste for the Production of Activated Carbons to Remove Phenol from Aqueous Solutions, J. Environ. Sci. Health, Part B, 43:452-463, 2008.
  • Das D, International workshop on biohydrogen production technology (IWBT 2008), 7-9 February 2008, IIT Kharagpur, 33, 2627-2628, 2008.

2007
  • Muthukumar M, Ghosh D, Das D*, Studies on the improvement of microbial fuel cell for power generation, Ind. J. Chem. Sci, 5(4):1603-9, 2007.
  • Basak N, Das D*. The Prospect of Purple Non-Sulfur (PNS) Photosynthetic Bacteria for Hydrogen Production: The Present State of the Art, World Journal of Microbiology and Biotechnology, 23: 31-42, 2007.
  • Nath K, Das D*. Production and storage of hydrogen: Present scenario and future perspective, Journal of Scientific and Industrial Research, 66: 701-709, 2007.
  • Kotay SM, Das D*. Microbial hydrogen production with Bacillus coagulans IIT-BT S1 isolated from anaerobic sewage sludge, Bioresource Technology, 98(6):1183-90, 2007.
  • Mohanty K, Das D, Biswas MN. Mass transfer characteristics of a novel multi-stage external loop airlift reactor, Chemical Engineering Journal, 133: 257-264, 2007.

2006
  • Kaushik Nath, Anish Kumar and Debabrata Das*, Effect of some environmental parameters on fermentative hydrogen production by Enterobacter cloacae DM11, Canadian Journal of Microbiology, 52: 525-532, 2006.
  • Vijay Gunasekaran, Shireen Meher Kotay and Debabrata Das*,Studies on alkaline lipase production by Citrobacter freundii IIT-BT L139, Indian J of Experimental Biology, 44: 485-491, 2006.
  • G Chittibabu, Kaushik Nath and Debabrata Das*, Feasibility studies on the fermentative hydrogen production by recombinant Escherichia coli BL-21, Process Biochemistry, 41, 682-88, 2006.
  • Biswajit Mandel, Kaushik Nath and Debabrata Das*,Improvement of biohydrogen production under decreased partial pressure of H2 by Enterobacter cloacae, Biotechnology Letters, 28: 831-835, 2006.
  • Kaushik Nath and Debabrata Das Amelioration of biohydrogen production by two-stage fermentation process., Industrial Biotechnology, 2: 44-47, 2006.
  • Das Debabrata *, Dutta Tumpa, Nath Kaushik, Kotay Shireen Meher, Das Amit K. and T. Nejat Veziroglu,The role of Fe-hydrogenase in biological hydrogen production, Current Science, 80: 1627-1637, 2006.
  • Mohanty K, Das D, Biswas MN. Hydrodynamics of a novel multi-stage external loop airlift reactor, Chem. Eng. Science, 61: 4617-24, 2006.
  • Mohanty K, Das D, Biswas MN. Preparation and Characterization of Activated Carbons from Sterculia alata Nutshell by Chemical Activation with Zinc Chloride to Remove Phenol from Wastewater, Adsorption, 12: 119-32, 2006.

2005
  • Kaushik Nath, Anish Kumar and Debabrata Das*, Hydrogen production by Rhodobacter sphaeroides strain O.U. 001 using spent media of Enterobacter cloacae strain DM11, Applied Microbiology and Biotechnology, 68, 533-541, 2005.
  • Vijay Gunasekaran and Debabrata Das*, Lipase fermentation: Progress and Prospects, Indian Journal of Biotechnology, 4, 437-445, 2005.
  • Debjeet Sen and Debabrata Das*, Multiple parameter optimization for the maximization of hydrogen production by Enterobacter cloacae DM11, Journal of Scientific and Industrial Research, 64(12): 984-990, 2005.
  • Mohanty K, Das D, Biswas MN. Adsorption of Phenol from Aqueous Solutions Using Activated Carbons Prepared from Tectona grandis sawdust by ZnCl2 Activation, Chem. Eng. J., 115, 121-31, 2005.
  • Mitra D, Saha B, Das D, Wiker HG, Das AK. Correlating sequential homology of Mce1A, Mce2A, Mce3A and Mce4A with their possible functions in mammalian cell entry of Mycobacterium tuberculosis performing homology modeling, Tuberculosis (Edinb). 85(5-6):337-45, 2005.

2004
  • Jayshree Mishra, Seema Khurana, Narendra Kumar, Ananta K Ghosh and Debabrata Das*, Molecular Cloning, Characterization and Overexpression of a Novel [Fe]-hydrogenase isolated from a high rate of
  • Hydrogen Producing Enterobacter cloacae IIT-BT 08, Biochemical and Biophysical Research Communications, 324, 679-685, 2004.
  • Kaushik Nath and Debabrata Das*, Biohydrogen production as a Potential Energy Source-Present State-of-art, Journal of Scientific and Industrial Research, 63, 729-738, 2004.
  • Kaushik Nath and Debabrata Das*, Improvement of fermentative hydrogen production - various approach, Applied Microbiology and Biotechnology, 65,520-529, 2004.
  • D. K. Daniel, D. Das, A. Krastanov Effect of Aeration, Agitation and Inoculum age on submerged fermentation Process for the Production of Glucoamylase by Aspergillus awamori NRRL 3112, Bulgarian Journal of Agricultural Sciences, 10, 583-590, 2004.
  • Harboe M, Das AK, Mitra D, Ulvund G, Ahmad S, Harkness RE, Das D, Mustafa AS, Wiker HG, Immunodominant B-Cell Epitope in the Mce1A Mammalian Cell Entry Protein of Mycobacterium tuberculosis Cross-Reacting with Glutathione S-Transferase (GST), Scandinavian Journal of Immunology, 59 (2), 190-7, 2004.

2003
  • Kaushik Nath and Debabrata Das*, Hydrogen from biomass, Current Science. 85(3), 265-271, 2003.
  • Das AK, Mitra D, Harboe M, Nandi B, Harkness RE, Das D, Wiker HG. Predicted molecular structure of the mammalian cell entry protein Mce1A of Mycobacterium Tuberculosis, Biochemical and Biophysical Research Communications, 302: 442-7, 2003.
  • K Nath, N Roy, L Mukherjee, D Das, Biohydrogenation Using Enterobacter Cloacae DM 11 and a Comparative Energy Analysis with Biomethanation, Oct 11-14, 2003, China.

2002
  • Debabrata Das*, P.K. Badri, Narendra Kumar, Pinaki Bhattacharya, Simulation and modeling of continuous H2 production process by Enterobacter cloacae IIT-BT 08 using different bioreactor configuration, Enzyme and Microbial Technology, 31(6): 867-875, 2002.
  • J.Mishra, N. Kumar, A.K. Ghosh, D. Das ?, Isolation and molecular characterization of hydrogenase gene from a high rate of hydrogen-producing bacterial strain Enterobacter cloacae IIT-BT 08, International Journal of Hydrogen Energy, 27, 1475-1479, 2002.
  • Daniel DK, Biswas N, Das D*. Morphological changes in Submerged cultivation of Aspergillus awamori for Glucoamylase production, Indian Journal of Biotechnology, 1: 357-62, 2002.

2001
  • Narendra Kumar and Debabrata Das*,Electron microscopy of hydrogen producing immobilized E. cloacae IIT-BT 08 on natural polymers, International Journal of Hydrogen Energy, 25(11): 1155-1163, 2001.
  • N Kumar and D. Das*, Continuous hydrogen production by immobilized Enterobacter cloacae IIT-BT 08 using lignocellulosic materials as solid matrices, Enzyme and Microbial Technology, 29(4-5): 280-287, 2001.
  • Narendra Kumar, Agnidipta Ghosh and Debabrata Das*, Redirection of biochemical pathways for the enhancement of H2 production by Enterobacter cloacae, Biotechnology Letters, 23(7): 537-541, 2001.
  • D. Das* and T. Nejat Veziroglu, Hydrogen production by biological processes: a survey of literature, Int. Journal of Hydrogen Energy, 26: 13-28, 2001.
  • K. Bandhyopadhyay, D. Das*, P. Bhattacharyya and B. R. Maiti, Reaction engineering studies on biodegradation of phenol by Pseudomonas putida MTCC 1194 immobilized on calcium alginate, Biochemical Engineering Journal, 8(3): 179-186, 2001.
  • Banerjee I, Modak JM*, Bandopadhyay K, Das D, Maiti BR, Mathematical model for evaluation of mass transfer limitations in phenol biodegradation by immobilized Pseudomonas putida, Journal of Biotechnology, 87, 211-223, 2001.

1982-2000
  • Ghosh TK, Das D. Maximization of Energy Recovery in Biomethanation Processes: Part-II Use of Mixed Residue in Batch System, Process Biochemistry, 17(1), 39-42, 1982.
  • R. Guha, D. Das, P.D. Grover and B.K. Guha*, Germicidal Activity of Tar-distillate obtained from Pyrolysis of Rice-Husk, Agricultural Wastes, 21, 93-100, 1987.
  • Das D*, Gaidhani NR, Murari K, Sen Gupta P. Ethanol Production by Whole Cell Immobilization using Lignocellulosic Materials as Solid Matrix, Journal of Fermentation and Bioengineering, 75, 2, 132-7, 1993.
  • Das D*, Sikdar K, Chatterjee AK. Potential of Azolla pinnata as Biogas Generator and as a Fish-feed, Indian J. Environ. HLTH, 36, 3, 186-91, 1994.
  • Soni SK, Venkateswara M, Das D*. Studies on Glucoamylase Produced from Aspergillus awamori (NRRL-3112) and their effect on Saccharification of Potato Starch, Indian Journal of Experimental Biology, 33, 957-961, 1995.
  • Bose K, Das D*. Thermostable alpha-amylase production using Bacillus licheniformis NRRL B14368, Indian Journal of Experimental Biology, 34, 1279-82, 1996.
  • Das D*, Srinivasu M, Bandyopadhyay M. Solid state acidification of MSW and the potential of leachate for biomethanation, Indian J. Environ. HLTH, 38, 3, 193-9, 1996.
  • Nandanwar HS, Das D*, Maiti BR. Some studies on Immobilized Lactobacillus delbruecki (NCIM-2365) in calcium alginate for the production of lactic acid, Indian Chemical Engineer, Section A, 38, 4, 158-63, 1996.
  • Bandyopadhyay K, Das D*, Maiti BR. Kinetics of phenol degradation using Pseudomonas putida MTCC 1194, Bioprocess Engineering, 18, 5, 373-7, 1998.
  • D. Das, M. Srinivasu and M. Bandyopadhyay, Solid state Acidification of Vegetable waste, Indian J. Environ. HLTH, Vol.-40, No.-4, P. 333-342, 1998.
  • D. Selvakumar, S. Dey and D. Das*, Production and bioassay of bialaphos biosynthesized by Streptomyces hygroscopicus NRRL B-16256, Bioprocess Engineering, 20, 5, 459-462, 1999.
  • Bandyopadhyay, D. Das* and B.R. Maiti, Solid matrix characterization of immobilized Pseudomonas putida MTCC 1194 used for phenol degradation, Applied Microbiology and Biotechnology, 51, 6, 891-895, 1999.
  • G. Rajesh, M. Bandyopadhyay and D. Das*, Some studies on UASB bioreactors for the stabilization of low strength industrial effluents, Bioprocess Engineering, 21, 2, 113-116, 1999.
  • N. Kumar and D. Das*, Production and purification of alpha-amylase from hydrogen producing Enterobacter cloacae IIT-BT 08, Bioprocess Engineering, 23, 2, 205-208, 2000.
  • N. Kumar, P.S. Monga, A.K. Biswas and D. Das*, Modeling and Simulation of Clean Fuel Production by Enterobacter cloacae IIT-BT 08, Int. Journal of Hydrogen Energy, 25, 945-952, 2000.
  • N. Kumar and D. Das*, Enhancement of hydrogen production by Enterobacter cloacae IIT-BT 08, Process Biochemistry, 35, 6, 589-594, 2000 (Erratum 35; 9: 1074).
  • D. Das, Biohydrogen Production Technology, the present Senario, Akshay Urja, 3(5), 2010.
  • D. Das, Microbial Fuel Cell- A Promising Green Energy Production Technology from Wastewater, Akshay Urja,3(6), 2010
  • Kaushik Nath and Debabrata Das*, Energy and economic analysis of a fermentative hydrogen production process, Bioenergy News, 7(2), 15-19, 2003.
  • Debabrata Das, Energy recovery from nonconventional energy sources at Biotechnology Centre, IIT Kharagpur, Bioenergy News, 2(2), 8, 1997
  • K. Nath and D. Das, Impacts of Biotechnology in society- a brief appraisal, National Science Day-2004, IIT Kharagpur.
  • D. Das, Biomass to biohydrogen: a successful path, Akshay Urja, Vol.-3 (6), 28-31, 2014.
  • S Roy and D. Das, Organic Wastes in India's Energy Supply, Future Energy, Jan-March, 28-35, 2015 (TERI).
  • Das Debabrata and Roy Shantonu, Biohythane process for the maximization of the gaseous energy recovery, Annals of the Indian National Academy of Engineering, XIII, 140-149, 2016.
  • Balachandar G, Sinha Pallavi, Das Debabrata, IIT-Kharagpur leads the way for Biofuels, Akshay Urja, 10 (1), 28-31, 2016.
  • Das Debabrata, Commercialization of biohydrogen production process from organic wastes, Akshay Urja 12-13, 29-33, 2020.
  • Harshita Singh and Debabrata Das, Biohydrogen from microalgae, In: Handbook of microalgae-based processes and products (Eds: Eduardo Jacob-Lopes, Mariana Manzoni Maroneze, Maria Isabel Queiroz, Leila Queiroz Zepka), Academic Press, 391-418, 2020
  • Srijoni Banerjee and Debabrata Das, Biodiesel Production from Microalgal Biomass Challenges and Perspectives, In: Handbook of Algal Technologies and Phytochemicals, Vol 2 (Eds. Gokare R. and Ambati R.), CRC Press, USA, 51-62, 2019
  • Vaishali Singh, Debabrata Das, Potential of Hydrogen Production From Biomass, In: Science and Engineering of Hydrogen-Based Energy Technologies (Ed. Paulo E. V. de Miranda), Elsevier and Academic Press, 132-164, 2019
  • Ramya Veerubhotla, Jhansi L. Varanasi, Debabrata Das, Biofilm Formation Within Microbial Fuel Cells, In: Progress and Recent Trends in Microbial Fuel Cells (Eds. K. Dutta and P.P. Kundu), Elsevier, 231-242, 2018
  • Jhansi L. Varanasi, Ramya Veerubhotla, Soumya, Debabrata Das, Biohydrogen production using Microbial Electrolytic Cell: Recent advances and future prospects, In: Bioelectrochemical System for Biofuels and Chemicals (Eds. Ashok Pandeys. Venkata Mohan), Elsevier, 843-870
  • G. Balachandar, N. Khanna, and D. Das, Dark-Fermentative Biohydrogen Production, In: Biohydrogen (Eds: A pandey, S Venkat Mohan, Jo-shu chang,P C. Hallenbeck, C Larroche), Elsevier, 79-122
  • Harshita Singh and Debabrata Das, Biofuels from Microalgae: Biohydrogen, In: Energy from Microalgae (Editors: Eduardo Jacob-Lopes, Leila Queiroz Zepka and Maria Isabel Queiroz), Springer Cham, 201-228, 2018.
  • Ramya Veerubhotla and Debabrata Das, Application of Microbial Fuel Cell as a Biosensor, In: Microbial Fuel Cell (Editor: Debabrata Das), Springer Cham, 389-402, 2018.
  • Saumya Pandit, Shruti Sarode, and Debabrata Das, Fundamentals of Microbial Desalination Cell, In: Microbial Fuel Cell (Editor: Debabrata Das), Springer Cham, 353-371, 2018.
  • Jhansi L Varanasi and Debabrata Das, Bioremediation and Power Generation from Organic Wastes Using Microbial Fuel Cell, In: Microbial Fuel Cell (Editor: Debabrata Das), Springer Cham, 285-306, 2018.
  • Jhansi L Varanasi, Ramya Veerubhotla and Debabrata Das, Diagnostic Tools for the Assessment of MFC., In: Microbial Fuel Cell (Editor: Debabrata Das), Springer Cham, 249-268, 2018.
  • Jhansi L Varanasi and Debabrata Das, Characteristics of Microbes Involved in Microbial Fuel Cell, In: Microbial Fuel Cell (Editor: Debabrata Das), Springer Cham, 43-62, 2018.
  • Saumya Pandit and Debabrata Das, Principles of Microbial Fuel Cell for the Power Generation, In: Microbial Fuel Cell (Editor: Debabrata Das), Springer Cham, 21-41, 2018.
  • Shantonu Roy, Debabrata Das, Nano Biotechnology Augmenting Biological Gaseous Energy Recovery, In: Nanotechnology for Energy Sustainability (Editors: Baldev Raj, Yashwant Mahajan, and Van de voorde Marcel), John Wiley-VCH, 249-270, 2015.
  • Shantonu Roy, Debabrata Das, Ecobiotechnological Approaches: Enrichment Strategy for Improvement of H2 Production, In: Microbial Factories:Biodiversity, Biofuels, Biopolymers, Bioactive molecules and Waste treatment (Editor: V.C. Kalia), Springer, 29-45, 2015.
  • Shantonu Roy, Debabrata Das, Biotechnological platform for biohydrogen production: present status and future challenges, In: Sustainable Biofuels Development: An Inevitable Option to Powering India (Editors: Anuj K. Chandel and Rajeev K. Sukumaran), Springer, 357-390, 2015.
  • Debabrata Das, Introduction, In: Algal Biorefinery: an Integrated Approach, (Editor: Debabrata Das), Capital Publishing Company Ltd., New Delhi, India, pp 1-36, 2015 (ISBN: 978-93-81891-23-0).
  • Shantonu Roy, Debabrata Das, Liquid Fuels Production from Algal Biomass, In: Algal Biorefinery: an Integrated Approach, (Editor: Debabrata Das), Capital Publishing Company Ltd., New Delhi, India, pp 287-308, 2015 (ISBN: 978-93-81891-23-0).
  • Shantonu Roy, Debabrata Das, Gaseous Fuels Production from Algal Biomass, In: Algal Biorefinery: an Integrated Approach, (Editor: Debabrata Das), Capital Publishing Company Ltd., New Delhi, India, pp 309-332, 2015, (ISBN: 978-93-81891-23-0).
  • Soumya Pandit, Debabrata Das, Role of microalgae in Microbial Fuel Cell, In: Algal Biorefinery: an Integrated Approach, (Editor: Debabrata Das), Capital Publishing Company Ltd., New Delhi, India, pp 393-418, 2015 (ISBN: 978-93-81891-23-0).
  • Supratim Ghosh, Debabrata Das, Improvement of Harvesting Technology for Algal Biomass Production, In: Algal Biorefinery: an Integrated Approach, (Editor: Debabrata Das), Capital Publishing Company Ltd., New Delhi, India, pp 177-202, 2015 (ISBN: 978-93-81891-23-0).
  • G. Balachandar, S. Roy, and D. Das. Hydrogen from Biomass - Production Processes via Fermentation, In: Hydrogen Science and Engineering (Editors: Stolten and Emonts), Wiley-VCH Verlag GmbH & Co., Berlin, Germany, 2015.
  • Kanhaiya Kumar and Debabrata Das, Carbon Dioxide Sequestration by Biological Processes. In: Transformation and Utilization of Carbon Dioxide (Editor: Bhanchandra M. Bhanage, Masahiko Arai), Springer, 2014 (ISBN 978-3-642-44987-1).
  • B. K. Nayak, S. Pandit, D. Das, Biohydrogen, In: Air Pollution Prevention and Control - Bioreactors and Bioenergy, John Wiley & Sons Ltd., pp 345-382, 2013 (ISBN: 978-1-1199-4331-0).
  • K. Kumar and D. Das, CO2 Sequestration and Hydrogen Production Using Cyanobacteria and Green Algae, In: Natural and Photosynthesis: Solar power as an energy source, Wiley-Blackwell Publication, USA, 2013 (in press).
  • G. Balachandar, N. Khanna and D. Das, Biohydrogen production from organic wastes by dark fermentation, In: Biohydrogen, Elsevier Pub., pp. 103-144, 2013 (ISBN: 978-0-444-59555-3).
  • K. Mohanty and D. Das, Kinetics of Biohydrogen Production by Dark Fermentation Processes, In: E-book entitled 'State of the Art and Progress in Production of Biohydrogen' (Editors: Nuri Azbar and David Levin), Bentham Science Publishers, USA, pp 127-136, 2012 (ISBN: 978-1-60805-224-0).
  • C. Nag Dasgupta and D. Das, Fundamentals of Biohydrogen production processes, In: Carbon Neutral Fuels Energy Carriers (Editors: T.N. Veziroglu and N. Muradov), Taylor and Francis Pub. (CRC Press), Boca Raton, FL, USA, pp 491-546, 2012, (ISBN: 978-1-4398-1857-2).
  • S.M. Kotay and D. Das, Biotechnology in Waste Treatment and Pollution Abatement, In: Environmental Security: Human and Animal Health (Ed. S.R. Garg), IBDC Publisher, Lucknow, India, pp 415-432, 2010 (ISBN: 978-81-8189-171-6).
  • J. Mishra, B. Mallick, T Dutta and D. Das, Separation of hydrogenase from the intact cells of Enterobacter cloacae IIT-BT 08, Proceedings of National Seminar and Workshop on Advanced Separations Process; Allied Publisher, Kolkata, India, pp 135-142, 2005 (ISBN: 81-7764-666-4).
  • C. Renuka and D. Das, High rate biodegradation of municipal solid wastes by advanced solid-state fermentation process, In: Downstream Processing in Biotechnology (Ed. R.N. Mukherjee), Tata McGraw-Hill Pub. Co. Ltd. New Delhi, India, pp 351-357, 1992 (ISBN: 0-07-462255-2).
  • K. Nath and D. Das, Photoproduction of hydrogen using phototrophic purple non-sulfur (PNS) bacteria in column bioreactor, In: Photo/Electrochemistry & Photobiology in Environment, Energy and Fuel (PE&P in EEF '2005), Research Signpost Pub., Trivandrom, India, pp 43-59, 2005 (ISBN: 81-308-0000-4).
  • S. Saha, N. Roy, K. Nath and D Das, Biohydrogenation of industrial effluents by Enterobacter cloacae DM11, Hypothesis V, pp 361-368, 2004 (ISBN: 88-86281-90-0).
  • K. Nath, N. Roy, L. Mukherjee and D. Das, Biohydrogenation using Enterobacter cloacae DM11 and a Comparative Energy Analysis with Biomethanation, In: ENERGY & ENVIRONMENT: A World of Challenges and Opportunities, Science Press New York Ltd. pp 273-280, 2004.
  • N. Kumar, N. Roy, J. Mishra, L. Mukherjee and D. Das, Scanning electron microscopy of immobilized whole cells: A case studies on the hydrogen production using immobilized Enterobacter cloacae IIT-BT 08, , Chapter in the book: "Science, technology and education of microscopy: An overview, In: Formatex (ed. A. Mendez-Vilas), Spain, pp 352-362, 2003 (ISBN: 84-607-6698-5).
Books Published

Publication on Conference / Workshop Proceedings in the Journals
  • Special issue of International Workshop on Biohydrogen Production Technology (IWBT 2008), Debabrata Das (Guest Editor), International Journal of Hydrogen Energy, 34(17), pp. 7348-7560, 2009.
  • Special issue of International Conference on Algal Biorefinery (ICAB 2013), Debabrata Das (Guest Editor), Algological Studies, 143(1), 2-87, 2013.
  • Special issue of International Conference on Advances in Biohydrogen Production and Applications (ICABHPA 2012) (IWBT 2008), Debabrata Das, M. Lakshmi Narasu and Krzysztof Urbaniec (Guest Editors), International Journal of Hydrogen Energy, 39(14), pp. 7467-7626, 2014.

Monograph
  • Mohanty K, Das D and Biswas MN, Development of a Multi-stage External Loop Air-lift Reactor for Wastewater Treatment, VDM Verlag Pub., Saarbrucken, Germany, 2010 9 (ISBN: 978-3-639-29875-8).

Books Reviewed
  • BIOHYDROGEN III, Edited by Jun Miyake, Yasuo Igarashi, Matthias Rogner, Elsevier Science Ltd., Oxford, UK, pp187, International Journal of Hydrogen Energy, 30, 565-567, 2005.
  • BIOTECHNOLOGY METHODS OF POLLUTION CONTROL, SA Abbasi and E Rsamasami, Universities Press, Hyderabad, Indian Journal of Experimental Biology, 38, p300, 2000.