Selected Publications


Books/Monographs

  1. B.K. Kakati, A. Verma. “Carbon polymer composite bipolar plate for PEM fuel cell: Development Characterization and Performance Evaluation” Lambert Academic Press, Germany (2011) (ISBN: 9783846503119).
  2. A. Ghosh, A. Verma. “Graphene: A potential candidate for PEM fuel cell components: development, characterization and performance evaluation” Scholar’s Press, (2014) (ISBN-978-3639661972).
  3. L.M. Aeshala, A. Verma. “Electrochemical reduction of carbon dioxide to value added product: Role of solid electrolyte”, Scholar’s Press, (2015) (ISBN- 978-3-639-76153-5).

Book Chapters

  1. R.K. Gautam, A. Verma, “Electrocatalyst Materials for Oxygen Reduction Reaction in Microbial Fuel Cell”, In: Microbial Electrochemical Technology: Sustainable Platform for Fuels, Chemicals and Remediation, Ed., S.Venkata Mohan Ashok Pandey Sunita Varjani Elsevier (2018) ISBN: 9780444640529.
  2. B.M. Rajbongshi, A. Verma, “Emerging Nanotechnology for third Generation Photovoltaic cells”, In: Nanotechnology: Applications in Energy, Drug and Food, Ed., Melvin Gan Jet Hong, Springer (2019) ISBN: 978-3-319-99601-1.
  3. A. Ghosh, A. Verma, 2015, Potential Applications of Graphene in Polymer Electrolyte Membrane Fuel Cell, Eds. M. Aliofkhazraei, N. Ali, W.I. Milne, C.S. Ozkan, S. Mitura, J.L. Gervasoni, Handbook of Graphene, CRC Press, ISBN: 978-1-4665-9133-2, Chapter 29, pp. 439-462.
  4. S. Singh, A. Verma, S. Basu. 2015, Oxygen Reduction Non-PGM electrocatalysts for PEM fuel cells- Recent advances”, (Ch 5), in: Advanced Materials and Technologies for Electrochemical Energy, Eds., P.K. Shen, C. Wang, X. Sun, S.P. Jiang, and J. Zhang, CRC Press, ISBN: 978-1-4822-2727-7, Chapter 16, pp. 385-403.
  5. S. Singh, A. Verma, and S. Basu, 2016, “Mechanism of Catalytic and Electrocatalytic CO2 Reduction to Fuels and Chemicals” in Electrochemical Reduction of Carbon Dioxide: Fundamentals and Technologies, CRC Press.
  6. A. Verma, S. Basu, 2007.  Direct alcohol and borohydride alkaline fuel cell. In: Recent Trends in Fuel Cell Science and Technology, Ed., S. Basu, Anamaya Publishers (New Delhi) and Springer, pp.157-187 (ISBN: 978-0-387-35537-5).

Patents

  1. Agarwal A., Pujari M., Uppaluri R. and Verma A. Composition and Method for Dense Palladium Ceramic Composite Membrane Fabrication, Indian Patent No. 304884 (Application No. 612/KOL/2014), Granted 24/12/2018.
  2. Manshu Kapoor, Anil Verma. Monitoring System for A Flow Battery, Indian Patent Application No.: 202011011037 dated 14-03-2020.
  3. Rajeev K. Gautam, Manshu Kapoor, Anil Verma. A Novel Process to Develop Efficient Electrode for Efficient Vanadium Redox Flow Battery, Indian Patent Application No.: 201911000339. Dated 24/12/2019.
  4. M. Bhati and Anil Verma, Redox Flow Battery System with Improved Energy Efficiency and Method of Operating, Indian Patent Application No.: 201711018872 dated May 29, 2017.
  5. T.S.K. Raunija, M. Mathew, S.K. Sharma, A. Verma, “A device and method for measuring gas permeability”, Patent application number: 201641037031 dated 28.10.2016.
  6. M. Pujari, A. Agarwal, R. Uppaluri and A. Verma. Composition and Method for Dense Palladium Composite Membrane Fabrication, Indian Patent filed (07-10-2013), Application No. 1150/KOL/2013.

Journals

2020

  1. R. K. Gautam, M. Kapoor, A. Verma, “Tactical Surface Modification of 3D Graphite Felt as Electrode of Vanadium Redox Flow Batteries with Enhanced Electrolyte Utilization and Fast Reaction Kinetic”, Energy and Fuels, 2020, 34 (2020), 5060-5071.
  2. A. Agrawal, M. Pujari, R.G. Uppaluri, and A. Verma, “Role of Surfactant-induced Chromia Barriers on Performance Characteristics of Pd Composite Membrane”, Chemical Engineering Communications, Vol- 207 (2019) 253-262.

2019

  1. M. Kapoor, R.K. Gautam, V.K. Ramani, A. Verma, “Predicting operational capacity of redox flow battery using a generalized empirical correlation derived from dimensional analysis”, Chemical Engineering Journal, 379 (2019) 122300-122307.
  2. P. Devi, K. Malik, E. Arora, S. Bhattacharya, V. Kalendra; K.V. Lakshmi, A. Verma, J.P. Singh, “Selective Electrochemical Reduction of CO2 to CO on CuO/In2O3 Nanocomposite: Role of Oxygen Vacancies”, Catalysis Science and Technology, 2019, 9, 5339–5349.
  3. N.A. Mohd Radzuan, A.B. Sulong, D. Hui, A. Verma, “Electrical Conductivity Performance of Predicted Modified Fibre Contact Model for Multi-Filler Polymer Composite”, Polymers 11 (2019), 1425.
  4. K. Malik, B.M. Rajbongshi, A. Verma, “Syngas production from electrochemical reduction of CO2 at high current density using oxide derived Zn/Cu nanocomposite”, Journal of CO2 Utilization, 33 (2019) 311-319.

2018

  1. B.M. Rajbongshi, A. Verma, “Plasmonic noble metal coupled biphasic TiO2 electrode for dye-sensitized solar cell”, Materials Letters, 232 (2018) 220-223.
  2. K. Malik, N.K. Bajaj, A. Verma, “Effect of catalyst layer on electrochemical reduction of carbon dioxide using different morphologies of copper”, Journal of CO2 Utilization, 27 (2018) 355-365.
  3. T.S.K. Raunija, R.K. Gautam, S.C. Sharma, A. Verma, “Preparation of randomly oriented carbon/carbon composites by a novel method and process optimization”, New Carbon Material, 3(2018)
  4. N.A.M. Radzuan, A.B. Sulong, D. Hui, A. Verma, “Electrical Conductivity Performance of Predicted Modified Fibre Contact Model for Multi-Filler Polymer Composite”, Polymers, 2019, 11(9), 1425.
  5. T.S.K. Raunija, R.K. Gautam, S.C. Sharma and A. Verma, “Ultra-thin carbon/silicon carbide composite bipolar plate for advanced fuel cells”, Materials Science & Engineering Technology, 49 (2018), 12-20.

2017

  1. Surya Singh, Rajeev K. Gautam, Karan Malik, Anil Verma, “Ag-Co bimetallic catalyst for electrochemical reduction of CO2 to value added products”, Journal of CO2 Utilization, 18 (2017) 139–146.
  2. J Shanthi Sravan, Sai Kishore Butti, Anil Verma, and Venkata Mohan S, “Phasic Availability of Terminal Electron Acceptor on Oxygen Reduction Reaction in Microbial Fuel Cell”, Bioresource Technology, 2017, 242, 101-108
  3. Abhinav Choudhury, Lepakshi Barbora, Divyanshu Arya, Banwari Lal, Sanjukta Subudhi, S. Venkata Mohan, Shaikh Z. Ahammad, Anil Verma, "Effect of Electrode Surface Properties on Enhanced Electron Transfer Activity in Microbial Fuel Cell", Eng. Life Sci. 2017, 17, 186–192.
  4. Malik Karan, Singh Surya, Basu Suddhasatwa, Verma Anil. Electrochemical reduction of CO2 for synthesis of green fuel. WIREs Energy Environ. 2017. doi: 10.1002/wene.244.
  5. Raunija T.S.K., Gautam R.K, Sharma S.C and Verma A., “Rapid fabrication of high density C/C composite by coupling of processes”, Advanced Materials Letters, 2017, 8(2), 136-144.

2016

  1. Raunija T.S.K., Sharma S.C and Verma A., “Yield enhancement of matrix precursor in short carbon fiber reinforced randomly oriented carbon/carbon composite”, Carbon Letters, 19, 1-9, (2016)
  2. T.S.K. Raunija, R.K.Gautam, V.M.Bhardwaj, N. Nandikesan, M. Shaneeth, S.C. Sharma, and A. Verma, “Low Cost and Rapidly Processed Randomly Oriented Carbon/Carbon Composite Bipolar Plate for PEM Fuel Cell", Fuel Cells, 2016, 16(6), 801-809.
  3. R.K. Gautam, H. Bhattacharjee, S. V. Mohan, and A. Verma, Nitrogen Doped Graphene Supported α-MnO2 Nanorods for Efficient ORR in a Microbial Fuel Cell, RSC Advances, 2016, 6, 110091-110101.

2015

  1. S. Singh, B. Phukan, C. Mukherjee and A. Verma, “Salen ligand complexes as electrocatalysts for direct electrochemical reduction of gaseous carbon dioxide to value added products” RSC Advances, 2015, 5, 3581-3589.
  2. A. Das, S. Basu, A. Verma, and K. Scott, “Characterization of Low Cost Ion Conducting Poly(AAc-co-DMAPMA) Membrane for Fuel Cell Application”, Materials Sciences and Applications, Accepted.
  3. B. Navaneeth, R. H. Prasad, P. Chiranjeevi, R. Chandra, O. Sarkar, A. Verma, S. Subudhi, B. Lal, and S.V. Mohan, “Implication of Composite Electrode on the Functioning of Photo-bioelectrocatalytic Fuel Cell Operated with Heterotrophic-anoxygenic Condition, Bioresource Technology, doi: j.biortech.2015.02.065.
  4. L.M. Aeshala and A. Verma, “Amines as Reaction Environment Regulator for CO2 Electrochemical Reduction to CH4”, Macromolecular Symposia, Accepted.
  5. A. Agrawal, M. Pujari, R.G. Uppaluri, and A. Verma, “Efficacy of Palladium Solution Concentration on Electroless Fabrication of Dense Metal Ceramic Composite Membranes Coupled with Surfactant and Sonication”, Materials and Manufacturing Processes, doi: 10.1080/10426914.2014.973596.

2014

  1. L.M. Aeshala, R.G. Uppaluri, and A. Verma, “Electrochemical Conversion of CO2 to Fuels: Tuning of the Reaction Zone using Suitable Functional Groups in a Solid Polymer Electrolyte” Physical Chemistry Chemical Physics, 2014, 16, 17588-17594.
  2. Pujari M., Agarwal A., Uppaluri R., and A. Verma, “Effect of Surfactant Concentration and Loading Ratio on the Electroless Plating Characteristics of Dense Pd Composite Membranes”, Industrial and Engineering Chemistry Research, 2014, 53 (8), 3105-3115.
  3. S. Singh, C. Mukherjee, and A. Verma, “Development of Catalytic Activity Protocol for Electrochemical Reduction of Carbon Dioxide to Value Added Products” Clean Technology and Environment Policy, 2014, 17, 533-540.
  4. Agarwal A., Uppaluri R., and Verma A., (2014).  Enhance practical knowledge through virtual mass transfer laboratory, Chemical Industry Digest, 2014, February, 73 - 76.
  5. A. Ghosh and A. Verma, “Carbon-polymer Composite Bipolar Plate for HT-PEMFC, Fuel Cells, 2014, 14, 259-265.
  6. D. Sahu, P. Mishra, N. Das, and A. Verma, S. Gumma, “The Net Adsorption of Hydrogen on Palladium Nanoparticles” Surface Review Letters, 2014, 21, 1450022-1450026.
  7. A. Agrawal, M. Pujari, R.G. Uppaluri, and A. Verma, “Optimal Electroless Plating Rate Enhancement Techniques for the Fabrication of Low Cost Dense Nickel/Ceramic Composite Membranes, Ceramics International, 2014, 40, 691-697.
  8. A. Agrawal, M. Pujari, R.G. Uppaluri, and A. Verma, “Efficacy of Novel Electroless Plating Process for Dense Pd/Cr2O3/PSS Membrane Fabrication”, Materials and Manufacturing Processes, 31, 1-5.
  9. M. Pujari, A. Agrawal, R.G. Uppaluri, and A. Verma, “Role of Electroless Nickel Diffusion Barrier on the Combinatorial Plating Characteristics of Dense Pd/Ni/PSS Composite Membranes”, Applied Surface Science, 2014, 305, 658-664.
  10. T.S.K. Raunija, S.K. Manwatkar, S.C. Sharma, and A. Verma, “Morphological Optimization of Process Parameters of Randomly Oriented Carbon/Carbon Composite”, Carbon Letters, 2014, 15, 25-31.
  11. A. Agrawal, M. Pujari, R.G. Uppaluri, and A. Verma, “Efficacy of Reducing Agent and Surfactant Contacting Pattern on the Performance Characteristics of Nickel Electroless Plating Baths Coupled with and without Ultrasound”, Ultrasonics Sonochemistry, 2014, 21, 1382-1391.
  12. Pujari M., Amrita A., Uppaluri R., and Verma A. Combinatorial electroless plating characteristics for dense Pd-PSS composite membrane fabrication, Materials and Manufacturing Processes, 2014, 31, 6-11.

2013

  1. B.K. Kakati, A. Ghosh, and A. Verma, “Efficient Composite Bipolar Plate Reinforced with Carbon Fibre and Graphene for Proton Exchange Membrane Fuel Cell, International Journal of Hydrogen Energy, 2013, 38, 9362-9369.
  2. S. Singh, A. N. Singh, A. Verma, and V.K. Dubey, “A Noval Superoxide Dismutase from Cicerarietinum L Seedling: Purification and Characterization”, Protein and Peptide Letters, 2013, 20, 741-748.
  3. A. Agrawal, M. Pujari, R.G. Uppaluri, and A. Verma, “Preparation, Optimization and Characterization of Low Cost Ceramics for the Fabrication of Dense Nickel Composite Membrane”, Ceramics International, 2013, 39, 7709-7716.
  4. A. Ghosh, S. Basu, and A. Verma, “Graphene and Functionalized Graphene Supported Platinum Catalyst for PEMFC” Fuel Cells, 2013, 13, 355-363.
  5. J.K. Verma, A. Verma, and A.K. Ghoshal, “Performance Analysis of Solid Oxide Fuel Cell using Reformed Fuel, International Journal of Hydrogen Energy, 2013, 38, 9511-9518.
  6. S. Singh, A. N. Singh, A. Verma, and V.K. Dubey, “Biodegradable Polycaprolactone (PCL) Nanosphere Encapsulating Superoxide Dismutase and Catalyse Enzymes. Applied Biochemistry and Biotechnology. 2013, 171, 1545-1558.
  7. A. Agrawal, R.G. Uppaluri, and A. Verma, “LabVIEW based E-learning Portal for Virtual Mass Transfer Operations Laboratory”, CSI Transactions on ICT, 2013, 1, 75-90.
  8. L.M. Aeshala, R.G. Uppaluri, and A. Verma, “Effect of Cationic and Anionic Solid Polymer Electrolyte on Direct Electrochemical Reduction of Gaseous CO2 to Fuel” Journal of CO2 Utilization, 2013, 3, 49-55.
  9. D. Sahu, P. Mishra, S. Edubilli, and A. Verma, S. Gumma, “Hydrogen Adsorption on Zn-BDC, Cr-BDC, Ni-DABCO, and Mg-DOBDC Metal-organic Frameworks”, Journal of Chemical Engineering Data, 2013, 58, 3096-3101.

2012

  1. Ghosh, A. Srinath, and A. Verma, “Synthesis and Evaluation of Graphene for PEMFC”, International Journal of Innovative Research & Development, 2012, 1, 7-12.
  2. L. Barbora, and A. Verma, “Enhanced Performance of Direct Methanol Fuel Cell using Talc Modified Nafion Membrane”, International Journal of Innovative Research & Development, 2012, 1, 128-136.
  3. L.M. Aeshala, S.U. Rahman, and A. Verma, “Effect of Solid Polymer Electrolyte on Electrochemical Reduction of CO2”, Separation and Purification Technology, 2012, 94, 131-137.
  4. S. Singh, L.M. Aeshala, and A. Verma, “Sustainable Production of Fuel from Electrochemical Reduction of Carbon Dioxide”, International Journal of Innovative Research & Development, 2012, 1, 155-160.
  5. S. Singh, A. Verma, and V.K. Dubey, “Effectivity of Antioxidative Enzymatic System on Diminishing the Oxidative Stress Induced by Aluminium in Chickpea (Cicerarietinum L.) Seedlings”, Brazilian Journal of Plant Physiology, 2012, 24, 47-54.

2011

  1. B.K. Kakati, D. Sathiyamoorthy, and A. Verma, “Semi-empirical Modelling of Electrical Conductivity for Composite Bipolar Plate with Multiple Reinforcements”, International Journal of Hydrogen Energy, 2011, 36, 14851-14857.
  2. B.K. Kakati, A. Ghosh, and A. Verma, "Graphene Reinforced Composite Bipolar Plate for Polymer Electrolyte Membrane Fuel Cell", ASME Proceedings, Fuel Cell 2011, 301-307.
  3. L.M. Aeshala, S.U. Rahman, and A. Verma, “Development of a Reactor for Continuous Electrochemical Reduction of CO2 using Solid Electrolyte”, ASME Proceedings, ES 2011, 1193-1199.
  4. N. Shroti, L. Barbora, and A. Verma, “Neodymium Triflate Modified Nafion Composite Membrane for Reduced Alcohol Permeability in Direct Alcohol Fuel Cell”, International Journal of Hydrogen Energy, 2011, 36, 14907-14913.
  5. U. Saxena, M. Das, S. Ahmed, L. Barbora, M. Borthakur, A. Verma, U. Bora, and P. Goswami, “Multiwalled Carbon Nanotube-based Enzyme Electrode for Total Cholesterol Estimation in Human Serum”, Journal of Experimental Nanoscience, (2011), 6, 84-95.

2010

  1. B.K. Kakati, D. Sathiyamoorthy, and A. Verma, “Electrochemical  and  Mechanical  Behaviour of Composite Bipolar Plate for Fuel Cell Application”, International Journal of Hydrogen Energy, 35 (2010) 4185-4194.
  2. D. Gaurava, A. Verma, D.K. Sharma, and S. Basu, “Development of Direct Alcohol Alkaline Fuel Cell Stack”, Fuel Cells, 10 (2010) 591-596).
  3. L. Barbora, R. Singh, N. Shroti, and A. Verma, “Synthesis and Characterization of Neodymium Oxide Modified Nafion Membrane for Direct Alcohol Fuel Cell”, Materials Chemistry and Physics, 2010, 122, 211-216.
  4. N. Verma and A. Verma, "Problem Faced in Amine System and their Possible Solutions", Hydrocarbon World, 2010, 4, 93-99.
  5.  A. Verma, and K. Scott, "Development of High Temperature PEMFC based on Heteropolyacids and Polybenzimidazole", Journal of Solid State Electrochemistry, 2010, 14, 213-219.

2009

  1. L. Barbora, S. Acharya, R. Singh, K. Scott, and A. Verma, “A Novel Composite Nafion Membrane for Direct Alcohol Fuel Cells”, Journal of Membrane Science,  2009, 326, 721-726.
  2. L. Barbora, S. Acharya, and A. Verma, "Synthesis and Ex-situ Characterization of Nafion/TiO2 Composite Membranes for Direct Ethanol Fuel Cell", Macromolecular Symposia, 2009, 277, 177-189.
  3. B.K. Kakati, K.R. Guptha, and A. Verma, “Fabrication of Composite Bipolar Plate for Polymer Electrolyte Membrane Fuel Cell”, Journal of Environmental Research and Development, 2009, 4, 202-211.
  4. B.K. Kakati, V.K. Yamsani, K.S. Dhathathreyan, D. Sathiyamoorthy, and A. Verma, “The electrical conductivity of a composite bipolar plate for fuel cell applications”, Carbon,  2009, 47, 2413-2418.
  5. S.N. Sugali, B.K. Kakati, and A. Verma, “Accelerated Solar Photocatalytic Degradation of Phenol using Titanium Dioxide”, Journal of Environmental Research and Development, 2009, 3, 763-772.
  6. N. Verma and A. Verma, “Amine System Problems Arising from Heat Stable Salts and Solutions to Improve System Performance”, Fuel Processing Technology, 2009, 90, 483-489.

2008

  1. X. Wu, A. Verma, and K. Scott, “Sb-doped SnP2O7 Proton Conductor for High Temperature Fuel Cells”, Fuel Cells, 2008, 8, 453-458. (Impact Factor: 2.364)
  2.  A. Difoe, A. Verma, and U.K. Saha, “A Preliminary Design Approach for 1 kW Direct Methanol Fuel Cell System”, Journal of Mechanical Engineering, 2008, 1, 30-46.
  3.  A. Verma, A. Sharma, and S. Basu, “Study of Methanol and Ethanol Electrooxidation in Alkaline Medium using Cyclic Voltammetry”, Indian Chemical Engineer, 2007, 49, 330-340.

2007

  1. B.K. Kakati, K.R. Guptha and A. Verma, “Numerical Optimization of Channel and Rib Width of Proton Exchange Membrane Fuel Cell Bipolar Plate”, International Journal of Chemical Sciences, 2007, 5, 1590-1602.
  2. L. Barbora, S. Acharya, S. Kaalva, A. Difoe and A. Verma, “Nafion/TiO2 Composite Membrane for Direct Methanol Fuel Cell”, International Journal of Chemical Sciences, 2007, 5, 1579-1589.
  3. A. Verma and S. Basu, “Direct Alkaline Fuel Cell for Multiple Liquid Fuels: Anode Electrode Studies”, Journal of Power Sources, 2007, 174, 180-185.
  4. A. Verma and S. Basu, “Experimental Evaluation and Mathematical Modeling of a Direct Alkaline Fuel Cell”, Journal of Power Sources, 2007, 168, 200-210.

Before 2007

  1. A. Verma, A.K. Jha, and S. Basu, “Evaluation of an Alkaline Fuel Cell in Multi-fuel System”, Journal of Fuel Cell Science and Technology, 2 (2005), 234-237.
  2. A. Verma and S. Basu, “Direct use of Alcohols and Sodium Borohydride as Fuel in an Alkaline Fuel Cell”, Journal of Power Sources, 145 (2005) 282-285.
  3. A. Verma and S. Basu, “Power from Hydrogen via Fuel Cell Technology”, Chemical Weekly, July 12, 2005, 177-181.
  4. A. Verma, A.K. Jha, and S. Basu, “Manganese Dioxide as a Cathode Catalyst for a Direct Alcohol or Sodium Borohydride Fuel Cell with a Flowing Alkaline Eelectrolyte” Journal of Power Sources, 141 (2005), 30-34.
  5. A. Verma and S. Basu, “Feasibility Study of a Simple Unitized Regenerative Fuel Cell”, Journal of Power Sources, 135 (2004) 62-65.