​​​ Worrisome Exaggeration of Activity of Electrocatalysts Destined for Steady-State Water Electrolysis by Polarization Curves from Transient Techniques, S. Ananthraj, Subrata Kundu and , Journal of Electrochemical Society, 2021 (Accepted) (IF: 4.316)

Stabilization of Ruthenium Nanoparticles over NiV-LDH Surface for Enhanced Electrochemical Water Splitting: An Oxygen Vacancy Approach, Arun Karmakar, K. Karthick, S. Sam Sankar, S. Kumaravel, Ragunath Madhu, Krishnendu Bera, Hariharan N Dhandapani, Sreenivasan Nagappan, Palanichamy Murugan and Subrata Kundu, Journal of Materials Chemistry A, 2021 (Accepted) (IF: 12.732)

Ru-doping induced amorphization of VS4 nanostructures with rich sulfur vacancy for enhanced HER in neutral electrolyte medium, Arun Karmakar, S. Sam Sankar, S. Kumaravel, Ragunath Madhu, Khaled H. Mahmoud, Zeinhom M. El-Bahy Subrata Kundu, Inorganic Chemistry, 2021 (Accepted) (IF: 5.165)​

Graphene based materials as electrocatalyst for oxygen evolution reaction: A review, H. Jung, Arun Karmakar, A. Adhikari, R. Patel, Subrata Kundu, Sustainable Energy & Fuel,  2021 (Accepted) (IF: 6.37)​

Revealing the pH-universal electrocatalytic activity of Co doped RuO2 towards the water oxidation reaction, R. Madhu, A. Karmakar, S. Kumaravel, S. Sam Sankar, K. Bera, S. Nagappan, N. D. Hariharan, Subrata Kundu, ACS Appl. Mater. Interfaces,  2021 (Accepted) (IF: 9.23)​

Enhancement of OER Kinetics of Less Explored beta-MnO2 via Nickel Doping Approaches in Alkaline Medium, K. Bera, A. Karmakar, K. Karthick, S. Sam Sankar, S.  Kumaravel, R. Madhu, Subrata Kundu,  Inorganic Chemistry,  2021, 60, 19429 (IF: 5.165)​

 Regulating the Heteroatom Doping in Metallogel-derived Co@Dual Self-doped Carbon Onions to Maximize Electrocatalytic Water Splitting, E. Saha, K. Karthick, Subrata Kundu, J. Mitra, J. Mater. Chem. A, 2021, 9, 26800  (IF: 12.732) ​

 Current Progressions in Transition Metal based Hydroxides as Bi-functional Catalysts towards Electrocatalytic Total Water Splitting, S. Kumaravel, K. Karthick, S. Sam Sankar,  A. Karmakar, R. Madhu, K. Bera and Subrata Kundu, Sustainable Energy & Fuel, 2021, 5, 6215  (IF: 6.37) (Appeared as front Cover Page)​

Aiding Time Dependent Laser Ablation to direct 1T-MoS2 for Improved Hydrogen Evolution Reaction, M. Mathankumar, K. Karthick, A. K. Nanda Kumar, Subrata Kundu, B. Subramanian, ACS Sustainable Chemistry and Engineering, 2021, 44, 14744 (IF: 4.59) ​

 Recent Progresses in Engineering of Ni and Co based Phosphides for Effective Electrocatalytic Water Splitting: a Review, S. Kumaravel, K. Karthick, S. Sam Sankar,  A. Karmakar, R. Madhu, K. Bera and Subrata Kundu, ChemElectroChem, 2021, 8, 1-49 (IF: 4.59) (Appeared as front Cover Page)

Metallic gold incorporated Ni(OH)2 for enhanced water oxidation in alkaline medium: a simple wet chemical approach, M. Ragunath,  Arun Karmakar, K. Karthick, S. Sam Sankar, S. Kumaravel, Krishnendu Bera, and Subrata Kundu, Inorganic Chemistry,  2021, 60, 15818 (IF: 5.165)​

 Self-assembled Cationic Organic Nanosheet: Role of Positional Isomers in Guanidium-Core for Efficient Lithium-Ion Conduction, A. Dey, V. R. Ramlal, S. Sam Sankar, Subrata Kundu, A. K. Mandal and A. Das, Chemical Science,  2021, 12, 13878 (IF: 9.82)​

Yellow Fluorescent Carbon Dots as Multimodal Sensor for Selective Recognition of As3+ and Fe3+ Ions, S. Rajendran, D. V. Ramanaiah, S. Ghosh, Subrata Kundu, and S. K. Bhunia, ACS Appl. Nano Materials,  2021, 4, 10931 (IF: 5.097)​

 Mixed-ligand-devised anionic MOF with divergent open Co(II)-nodes as chemo-resistant, bi-functional material for electrochemical water oxidation and mild-condition tandem CO2 fixation, N. Seal, K. Karthick, M. Singh, Subrata Kundu and S. Neogi, Chemical Engineering Journal,  2022, 429, 132301 (IF: 13.29)​

Advancing the Extended Roles of 3D Transition Metal based Heterostructures with Copious Active Sites for Electrocatalytic Water Splitting, K. Karthick, S. Sam Sankar, S. Kumaravel, Arun Karmakar, R. Madhu, Krishnendu Bera and Subrata Kundu, Dalton Transactions,  2021, 50, 13176 (IF: 4.39) (Selected as a ‘HOT’ articles)​

 DNA Enthralled Less Resistive Palladium Nano-Spheres for Effective Hydrogen Evolution Reaction, S. Kumaravel, K. K. Saravanan, B. E. Evangeline, V. Niharika, R.  Jayakumar and Subrata Kundu, Catalysis Science and Technology,  2021, 11, 5868. (IF: 6.12)​

 Temperature Controlled Structural Variation of Meticulous Fibrous Networks of NiFe-Polymeric ZIFs for Enhanced Performance in Electrocatalytic Water Splitting Reactions, S. Sam Sankar, K. Karthick, S. Kumaravel, Arun Karmakar, M. Ragunath and Subrata Kundu, Inorganic Chemistry,  2021, 60, 12467 (IF: 5.165)​

 Cobalt- iron Zeolitic Imidazolate Frameworks (ZIFs) as Fibers for an effective Detection of Hydroquinone, T. Thenrajan, S. Sam Sankar,  G. Srinivasan, Subrata Kundu, J. Wilson, Dalton Transactions,  2021, 50, 10540-10548 (IF: 4.39)​

 DNA Modified Cobalt Tungsten Oxide Hydroxide Hydrate Nanochains as Effective Electrocatalyst with Amplified CO Tolerance during Methanol Oxidation,S. Kumaravel, M. Subramanian, K. Karthick, A. Sakthivel, Subrata Kundu and S. Alwarappan, ACS Omega,  2021, 6, 19162-19169 (IF: 5.165)​

Electrospun Cobalt Incorporated MOF-5 Micro-Fibers as a Promising Electrocatalyst for OER in Alkaline Media, M. Ragunath,  K. Karthick, S.  Sam Sankar, A. Karmakar, S. Kumaravel and Subrata Kundu, Inorganic Chemistry,  2021, 60, 9899-9911 (IF: 5.165)​

  Bimetallic Zeolite Imidazole Framework Nanofibers for Selective Determination of Cd2+ ion, G. Srinivasan, S Sam Sankar, T Thenrajan, S. Kundu, W. Jeyaraj Journal of Materials Chemistry B, 2021, 9, 5656 (IF: 6.331)

In Situ Decorated Ni Metallic Layer with CoS2-Layered Thin Films via a Layer-by-Layer Strategy Using Pulsed Laser Deposition for Enhanced Electrocatalytic OER, M. Mathankumar, K Karthick,  A K Nandakumar, Subrata Kundu and S Balasubramanian, Inorganic Chemistry,  2021, 60, 8946-8957 (IF: 6.165)​

 DNA Chain-like Structure: a Framework for the Fabrication of Nickel-Zinc Tungstate Oxide Film on Copper for Corrosion Protection in Chloride Medium, V. I. Chukwuike, Sangeetha Kumaravel,  Subrata Kundu, and R. C. Barik, Journal of Molecular Liquids,  2021, 336, 116342(Accepted) (IF: 6.165)​

Current Perspectives on 1D ZIFs as Fibers via Electrospinning Process towards Electrocatalytic Water Splitting: A Review, S.  Sam Sankar, K. Karthick,  S. Kumaravel, A. Karmakar,  M. Ragunath, and Subrata Kundu, J. Mater. Chem. A,  2021, 9, 11961-12002 (IF: 12.732)​

  Oxygen Vacancy Enriched NiMoO4 Nanorods via Microwave heating: A Promising highly stable Electrocatalyst for Total Water Splitting,  A. Karmakar,  K. Karthick, S.  Sam Sankar, S. Kumaravel, M. Ragunath, and Subrata Kundu, J. Mater. Chem. A,  2021, 9, 11691-11704 (IF: 12.732)​

 Fabricating highly stable platinum organosol over DNA-scaffolds for enriched catalytic and SERS applications, M. Ragunath, A. Karmakar,  K. Karthick, S. Kumaravel,  S.  Sam Sankar, and Subrata Kundu, Dalton Trans., 2021, 50, 7198-7211 (IF: 4.39)​

Prospects in interfaces of Biomolecule DNA and nanomaterials as an Effective Way for Improvising Surface Enhanced Raman Scattering: A review,  S. Kumaravel,  K. Karthick, S.  Sam Sankar, A. Karmakar, M. Ragunath and Subrata Kundu, Advances in Colloid & Interface Science, 2021, 291, 102399  (IF: 12.84)​

  Electrospun Fe Incorporated ZIF-67 Nanofibers for Effective Electrocatalytic Water Splitting,  S. Sam Sankar, G. Keerthana, K. Manjula, J. Sharad, Subrata Kundu, Inorganic Chemistry, 2021, 60, 4034-4046 (IF: 5.165)​

Highly stable tri-metallic (Co, Ni, Fe) zeolite imidazolate framework microfibers: an excellent electrocatalyst for water oxidation,   S. Sam Sankar, K. Manjula, G. Keerthana, B. Ramesh Babu, Subrata Kundu, Crystal Growth & Design, 2021, 21, 1800-1809  (IF: 4.076)​

Surface Decoration of DNA Aided Amorphous Cobalt Hydroxide via Ag+ ions as Binder free Electrodes Towards Electrochemical Oxygen Evolution Reaction,   Arun Karmakar, K. Karthick, S. Sam Sankar, S. Kumaravel, M. Ragunath and Subrata Kundu, Inorganic Chemistry, 2021, 60, 2680-2693  (IF: 5.165)

Enabling and Inducing Oxygen Vacancies in Cobalt Iron Layer Double Hydroxide via Selenization as Precatalysts for Electrocatalytic Hydrogen and Oxygen Evolution Reaction,   Arun Karmakar, K. Karthick, S. Kumaravel, S. Sam Sankar and Subrata Kundu, Inorganic Chemistry, 2021, 3, 2023-2036 (IF: 5.165)​

 Shape-Selective Rhodium Nano-Huddles on DNA for High Efficient Hydrogen Evolution Reaction in Acidic Medium,   S. Kumaravel,  K. Karthick, S.  Sam Sankar,  A. Karmakar, and Subrata Kundu,  J. Mater. Chem. C, 2021, 9, 1709 (IF: 7.393)​

  Electrospinning as a tool in fabricating hydrated porous cobalt phosphate fibrous network as high rate OER electrocatalysts in alkaline and neutral media,   S. Sam Sankar, A Rathish Kumar, K. Geetha, Subrata Kundu, International journal of hydrogen energy, 2021, 46, 10366-10376 (IF: 5.816)​

  Green and sustainable route for oxidative depolymerisation of lignin: New Platform for fine chemicals and fuels,   S. Kumaravel, P. Thiruvengetam,  K. Karthick, S.  Sam Sankar,  A. Karmakar, and Subrata Kundu, Biotechnology Progress, 2021, 37, e3111 (IF: 2.681)​

Crystalline Free-Standing Two-Dimensional Zwitterionic Organic Nanosheets for Efficient Conduction of Lithium-Ion,  A. Dey, R. Vishwakarma, S. Sam Sankar, T. S. Mahapatra, E. Suresh, Subrata Kundu, A. Mandal, A. Das, ACS Applied Materials & Interfaces, 2021, 52, 58122-58131  (IF: 8.75)

 Vast Exploration on Improvising Synthetic Strategies in Enhancing OER Kinetics of LDH Structures:  a Review, Arun Karmakar, K. Karthick, S. Sam Sankar, S. Kumaravel, M. Ragunath and Subrata Kundu, J. Mater. Chem. A, 2021, 9, 1314-1352 (Accepted) (IF: 11.32)​

 (IF: 5.958)2021, 8, 234  Inorganic Chemistry Frontiers, 112.  Investigation on Nanostructured Cu Based Electrocatalysts for Improvising Water Splitting: A Review, K. Karthick, K. Sangeetha, S. Sam Sankar, A. Karmakar, M. Ragunath and S. Kundu,

 “The Fe Effect”: A Review Unveiling the Critical Roles of Fe in Enhancing OER Activity of Ni and Co Based Catalysts, S. Anantharaj, S. Kundu and S. Noda, Nano Energy, 2020, 80, 105514  (IF: 15.2)​