NiCoP fibers as novel catalysts for hydrogen evolution in alkali and acidic environment
Iron-nickel metal foams modified by phosphides as robust catalysts for a hydrogen evolution reaction
Carbon Fibers Doped by Binary Phosphides as an Electrocatalytic Layer for PEM Electrolysers
Nanoarchitectonics of binary transition metal phosphides embedded in carbon fibers as a bifunctional electrocatalysts for electrolytic water splitting
electrocatalysis; Energy Storage devices; organic catalysis; organic polymers; functional hybrid materials; battery-supercapacitor hybrids; Electric vehicle battery; disassembly; echelon utilization; disassembly optimization; human-robot collaboration; Energy storage devices; Organic Polymers; plastic phase; organic solid electrolyte; N-propyl-N-methyl-pyrrolidinium tetrafluoroborate; lithium tetrafluoroborate; ionic conductivity; phase digram; galvanostatic cycling; Electrocatalysis; energy storage devices; hollow nanospheres; separator modification; nickel cobaltate; lithium polysulfides; Lithium-ion cells; pulsed discharge; alternate switching; energy surplus; specific frequency; energy storage; supercapacitors; electrodes; electrolytes; electrical double-layer capacitance; pseudocapacitance; battery-type material; latex particles; sensitivity; capacitance performance; Lithium-ion battery; EIS; parameter identification; modeling; electrolyte conductivity; Lithium metal battery; lithium metal anode; polymeric artificial layer; single ion conductor; lithium dendrite.; Organic polymers; Vehicle-to-grid; Electric vehicle; Load aggregator; Adjustable capacity; Electricity market.; polyvinylidene chloride carbonization; porous sp-based films; dehydrochlorination; polyyne-polyene structure.; Energy Storage Devices; Nitrogen-containing graphene; manganese dioxide; composite; asymmetric solid-state supercapacitor; ASSC; Carbon Nanofibers; MoS2 nanosheets; core//sheath structure; electrospinning; self-supporting anode; Atmospheric-pressure plasma jet (APPJ); lithium manganese oxide; lithium capacitor; battery-type capacitor.; polymer composites; interfacial properties; solar cells; photocatalytic hydrogen production; batteries; polymeric composite electrolytes; Rechargeable lithium-ion battery; Modelling; Energy conversion; energy efficiency; state of charge; terminal voltage; charging and discharging rates.; Functional hybrid materials
Seunghun’s general research topic is electrochemical power system. His work particularly focuses on automotive batteries, ESS and fuel cells. He’s been working on development of multi-physics, multi-dimensional computational models of lithium-ion battery, redox flow battery, and fuel cells for automotive and residential applications. He also has interests in system-level engineering such as battery pack system, fuel cell system based on thermo-fluidic science, heat and mass transfer, and control engineering.
CdS thin films; transparent conducting layers; sputtered thin films; optical and electrical properties of thin films; molybdenum sulfide; transition metals sulfides; hydrogen evolution reaction; electrocatalyst; microwave; hydrothermal; MoS2 nanosheets; Advanced functional materialsphotovoltaics; Prussian blue analogues; adsorption; catalysis; Fenton process; persulfate; photo
water splitting; nanomaterials, electrode, electrocatalyst, catalyst, membrane, vanadium redox flow battery, unitized regenerative fuel cell, lead-carbon batteries, hydrogen storage, supercapacitor
My research interest is related to Ecohydrology of Andean Ecosystems, using hydrometric and tracer techniques. I study the ecohydrological controls and the global change impacts.
hydrological modeling; GIS; water resources management; watershed hydrology; floods; hydrologic and water resource modeling and simulation
watershed hydrological modeling; hydro-ecological environment protection; urban water resources management; river flood simulation and forecast
hydrological modeling; soil and water conservation; water quality; Environment; modelling; water resources management; water resources engineering; Rivers; Basin; water quanity
remote sensing; climate change; GIS; Sustainable Development; air pollution; Hydrology; rainfall-runoff modeling; atmospheric composition; spatial analysis and statistics
Water Resources Management; watershed modeling; Global hydrology; GIS applications; Python Scripting; land use change detection; hydrologic applications using remote sensing data
Hydrology; Operational Research; flood risk management; Flood Forecast; hydrogeology water management; hydrology hydrogeology water management flood forecast flood risk management operational research
Groundwater; Soil erosion; Hydrology; Water Resources; precipitation; statistical hydrology; polyethylene; stakeholder involvement; Conflict Analysis; air valve; hydraulic transients; experimental data; pipes system; fluid–structure interaction; flooding areas; Bayesian Belief Network; nature based solutions (nbs); riparian area
climate; land-atmosphere interaction; hydrological model; forecasts; meteorological instrumentation; regional and global climate modelling and applications; severe convective storms and hazards
Biocomplexity (Network/Pattern Analysis and Inference, Collective Dynamics), Ecosystem Dynamics (Biodiversity, Species Interactions, Eco-Environmental Flows), Land Use/Land Cover Change and Habitat Eco-geomorphological Modeling, Ecohydrological Extremes & Climate Impacts, Blue Carbon (Biogeochemical Dynamics), Environmental Microbiome, Aquatic Ecosystems (Riverine and Marine), Ecosystem Health, Multiscale Predictions and Forecasting, Ecosystem Indicators and Critical Transitions, Ecosystem Monitoring and Data Science, Portfolio Ecosystem Management, Ecological Engineering and Ecosystem Design