Improving the charge kinetics through in-situ growth of NiSe nanoparticles on g-C3N4 nanosheets for efficient hybrid supercapacitors, SR Khaladkar, O Maurya, Girish Gund, B Sinha, D Dubal, RR Deshmukh, Journal of Energy Chemistry 87, 304-313.
Core–Shell Structured MXene@Carbon Nanodots as Bifunctional Catalysts for Solar-Assisted Water Splitting. D. N. Nguyen†, G. S. Gund†, M. G. Jung, S. H. Roh, J. Park, J. K. Kim, H. S. Park, ACS Nano, 14, 12, 17615–17625
Anion-exchange phase control of manganese sulfide for oxygen evolution reactions. R. B. Pujari, G. S. Gund, S. J. Patil, H. S. Park, and D. W. Lee, Journal of Material chemistry A, 8, 3901-3909
Two-Dimensional Metallic Niobium Diselenide for Sub-Micrometer-Thin Antennas in Wireless Communication Systems. G. S. Gund, M. G. Jung, K. Y. Shin, and H. S. Park, ACS nano 13 (12), 14114-14121
Highly Conducting, Extremely Durable, Phosphorylated Cellulose-Based Ionogels for Renewable Flexible Supercapacitors. R. Harpalsinh, J. H. Park, G. S. Gund, and H. S. Park, Energy Storage Materials 22, 70-75
MXene/Polymer Hybrid Materials for Flexible AC Filtering Electrochemical Capacitors. G. S. Gund, J. H. Park, R. Harpalsinh, M. Kota, J. H. Shin, T. I. Kim, Y. Gogotsi, H. S. Park, Joule 3, 164-176
Hybridization Design of Materials and Devices for Flexible Supercapacitors. R. Hou†, G. S. Gund†, K. Qi, P. Nakhanivej, H. Liu, F. Li, B. Y. Xia, and H. S. Park, Energy Storage Materials, 19, 212-241
Stabilizing NiCo2O4 hybrid architectures by reduced graphene oxide interlayers for improved cycling stability of hybrid supercapacitors. K. H. Oh†, G. S. Gund†, H. S. Park, Journal of Material chemistry A, 6, 22106-22114
A symmetric MnO2/MnO2 flexible solid state supercapacitor operating at 1.6 V with aqueous gel electrolyte. N. R. Chodankar, D. P. Dubal, G. S. Gund, and C. D. Lokhande, Journal of Energy Chemistry, 25, 463-471
Architectured morphologies of chemically prepared NiO/MWCNTs nanohybrid thin films for high performance supercapacitors. G. S. Gund, D. P. Dubal, S. S. Shinde, and C. D. Lokhande, ACS Applied Materials & Interfaces, 6, 3176-3188
Temperature influence on morphological progress of Ni(OH)2 thin films and its subsequent effect on electrochemical supercapacitive properties. G. S. Gund, D. P. Dubal, S. B. Jambhure, S. S. Shinde, and C. D. Lokhande, Journal of Materials Chemistry A, 1, 4793-4803
Decoration of sponge-like Ni(OH)2 nanoparticles onto MWCNTs using an easily-manipulated chemical protocol for flexible supercapacitor. D. P. Dubal, G. S. Gund, C. D. Lokhande, and R. Holze, ACS Applied Materials & Interfaces, 5, 2446-2454