Recent Publications:
2025:
Ambient plasma treated SiCNT composite for energy storage
M Subedi, HK Jeong
New Physics : Saemulli 75 (2025) 297-304
Silicon carbon based materials for Supercapacitor applications
G Lee, K Pandey,M Subedi, HK Jeong
New Physics : Saemulli 75 (2025) 323-330
Hydrothermal Synthesis of iron Oxide Grown on Nickel Foam for Supercapacitors
K Pandey, YG Lee, HK Jeong
Current Applied Physics 72 (2025) 56-64
2024:
Plasma treated nickel doped tungsten disulfide for supercapacitors and overall water splitting
K Pandey, HK Jeong
Journal of industrial and Engineering Chemistry 74 (2024) 471-471
Nickel doped tungsten disulfide grown on carbon cloth for flexible supercapacitors
K Pandey, HK Jeong
Journal of Alloys and Compound 1008 (2024), 176784
Silicon Carbon Nanotube Composite for Supercapacitor Applications
M Subedi, HK Jeong
New Physics: Saemulli 74 (2024), 1-0
Time-dependent synthesis of tungsten disulfide for flexible supercapacitors
K Pandey, HK Jeong
Journal of Energy Storage 90 (2024), 111756
Plasma Treated Highly Oriented Pyrolytic Graphite for Supercapacitor Applications
K Pandey, HK Jeong
New Physics: Sae Mulli 74 (2024), 366-373
Silicon-Carbon nanofiber composite film for supercapacitor applications
K Pandey, HK Jeong
Chemical Physics Letters 834 (2024), 140972
2023:
Nickel-Doped Tungsten Disulfide for Energy Storage Applications
K Pandey, HK Jeong
Journal of Nepal Physical Society 9 (2023), 7-11
Ambient plasma treated tungsten disulfide for electrochemical energy applications
K Pandey, HK Jeong
Journal of Physics and Chemistry of Solids 181 (2023), 111520
Synthesis of Tungsten Disulfide for Electrocatalysts
K Pandey, HK Jeong
New Physics: Sae Mulli 73 (2023), 403-412
Synthesis of tungsten disulfide for electrochemical energy applications
K Pandey, HK Jeong
Materials Science and Engineering: B 295 (2023), 116601
Synthesis of Nickel-doped 1T Phases of Molybdenum Disulfide for Electrocatalysts Applications
G Ghanashyam, HK Jeong
Chemical Physics Letters 824 (2023), 140546
Coffee Waste-Derived Porous Carbon for Hydrogen and Oxygen Evolution Reaction
K Pandey, HK Jeong
Chemical Physics Impact 6 (2023), 100175
2022:
Coffee Waste-Derived Porous Carbon Based Flexible Supercapacitors
K Pandey, HK Jeong
Chemical Physics Letters 809 (2022), 140173
Flower-like molybdenum disulfide for efficient hydrogen and oxygen evolution reaction
G Ghanashyam, HK Jeong
Inorganica Chimica Acta 541 (2022), 121098
Sonication Effect on MoS2 Particles
K Pandey, HK Jeong
New Physics: Sae Mulli 72 (4), 274-280
Nitrogen-doped Molybdenum Disulfide to Catalyze Hydrogen and Oxygen Evolution Reactions
G Ghanashyam, HK Jeong
Sae: Mulli 72 (2022), 266-273
Ambient plasma treated molybdenum disulfide as bifunctional electrocatalysts
G Ghanashyam, HK Jeong
Chemical Physics Letters 794 (2022), 139492
Size Effects of MoS2 on Hydrogen and Oxygen Evolution Reaction
G Ghanashyam, HK Jeong
J. Electrochem. Sci. Technol.
...........................................................Previous ones follow the links below: Publication libraries (Daegu University)