13. D. Patra†, S. Ghosh†, R. Parida, S. K. Pati, S. K. Martha, J. Y. Lee, and S. Park, Unlocking Higher Performance of Dual-Ion Storage via Fluorene Substitution in Bipolar Conjugated Polymers Featuring Dual Acceptors, Chemical Engineering Journal, 2025, 524, 168654. [Link]
12. L. Mohapatra†, S. K. Pati†, D. Patra†, K.-H. Kim, S. Park, and S. H. Yoo, Biphasic Ni-MXene quantum-confined nanostructures: a versatile janus platform for advanced energy storage and catalytic oxidation, Advanced Materials, 2025, Accepted. [Link] (†Equal contribution)
11. D. Patra, S. K. Pati, S. Muduli, S. Mishra, G.-H. Kim, H. Bae, TW Kim and S. Park, Enhanced anodic charge storage in asymmetric hybrid supercapacitor featuring dione-diimide-based electron deficient conjugated polymers, Journal of Materials Chemistry A, 2025, 13, 24694-24705. [Link]
10. S. K. Pati, S. Muduli, D. Patra, S. Oh, B. J. Kim, S. Mishra, and S. Park, Energy Storage Behavior of Side Chain-Engineered Si-Bridged Redox-Active Donor-Acceptor Conjugated Polymers Operated in Organic Electrolytes, Journal of Materials Chemistry A, 2025, 13, 20504-20518. [Link]
9. S. K. Pati, D. Patra, S. Muduli, S. Mishra, and S. Park, Conjugated Polymer Electrodes Fabricated Using Rylene-Based Acceptors Toward High Energy and Power Density Symmetric Supercapacitor Operable in Organic Electrolyte Environment, Journal of Materials Chemistry A, 2024, 12, 21165-21175. [Link]
8. D. Patra, S. K. Pati, and S. Park, Side Chain-Engineered Pseudocapacitive Semiconducting Polymer Electrodes for Symmetrical Supercapacitors Operable at Wide Potentials, European Polymer Journal, 2024, 212, 113055. [Link]
7. D. Patra, S. K. Pati, S. Muduli, S. Mishra, and S. Park, Highly Planar Pseudocapacitive Semiconducting Polymer Electrodes Toward Symmetric Supercapacitors with a Wide Range of Operating Potentials, Chemical Engineering Journal, 2024, 482, 149162. [Link]
6. S. K. Pati†, Y. Hwang†, H-M Lee, B-J Kim, and S. Park, Porous Activated Carbon Derived from Petroleum Coke as a High-Performance Anodic Electrode Material for Supercapacitors, Carbon Letters, 2024, 34, 153-162. [Link] (†Equal contribution)
5. S. K. Pati, D. Patra, S. Muduli, S. Mishra, and S. Park, Energy Storage Application of Conducting Polymers Featuring Dual Acceptors: Exploring Conjugation and Flexible Chain Length Effects, Small, 2023, 19, 26, 2300689. [Link]
4. S. Muduli, S. K. Pati, T. K. Pani, and S. K. Martha, One Pot Synthesis of Carbon Decorated NiO Nanorods as Cathode Materials for High-Performance Asymmetric Supercapacitors, Journal of Energy Storage, 2023, 66, 107339. [Link]
3. S. Muduli, S. K. Pati, and S. K. Martha, Bio-Waste Derived Carbon Nano-Onions as an Efficient Electrode Material for Symmetric and Lead-Carbon Hybrid Ultracapacitors, International Journal of Energy Research 2022; 46:14074-14087. [Link]
2. S. Muduli†, S. K. Pati†, S. Swain, and S. K. Martha, MoO3@ZnO Nanocomposite as an Efficient Anode Material for Supercapacitors- A Cost-Effective Synthesis Approach, Energy Fuels 2021, 35, 16850-16859.[Link] (†Equal contribution)
1. S. Muduli, V. Naresh, S. K. Pati, S. Duary, and S. K. Martha, Polypyrrole-MoS2 Nanopetals as Efficient Anode Material for Lead-based Hybrid Ultracapacitors, Journal of The Electrochemical Society 2021, 168, 050523. [Link]
1. 'A coating composition and process of obtaining the composition'. Indian Patent No.: 551317,(Granted, September 27, 2024).
Smrutiranjan Parida, Shasthavillath Sreenivasan Ananthapadmanabhan, Tapan Kumar Rout, Sudin Chatterjee, Subir Pati, Amar Nath Bhagat.