BROWSE

사진

  • ResearcherID
  • ResearchGate
  • Scopus
  • Google Citations

Cho, Jaephil (조재필)

Department
School of Energy and Chemical Engineering(에너지및화학공학부)
Research Interests
Li-ion battery, metal-air battery, redox-flow battery, flexible battery .
Lab
Nano Energy Storage Materials Lab (NESM)
Website
http://jpcho.com/
This table browses all dspace content
Issue DateTitleAuthor(s)TypeViewAltmetrics
201407Flexible high-energy Li-ion batteries with fast-charging capabilityPark, Mi-Hee; Noh, Mijung; Lee, Sanghan, et alARTICLE463 Flexible high-energy Li-ion batteries with fast-charging capability
201404Metal-free Ketjenblack incorporated nitrogen-doped carbon sheets derived from gelatin as oxygen reduction catalystsNam, Gyutae; Park, Joohyuk; Kim, Sun Tai, et alARTICLE562 Metal-free Ketjenblack incorporated nitrogen-doped carbon sheets derived from gelatin as oxygen reduction catalysts
201404Nanocarbon electrocatalysts for oxygen reduction in alkaline media for advanced energy conversion and storageLi, Qing; Cao, Ruiguo; Cho, Jaephil, et alARTICLE449 Nanocarbon electrocatalysts for oxygen reduction in alkaline media for advanced energy conversion and storage
201404A bifunctional perovskite catalyst for oxygen reduction and evolutionJung, Jae-Il; Jeong, Hu Young; Lee, Jang-Soo, et alARTICLE558 A bifunctional perovskite catalyst for oxygen reduction and evolution
201403Magnesium(II) bis(trifluoromethane sulfonyl) imide-based electrolytes with wide electrochemical windows for rechargeable magnesium batteriesHa, Se-Young; Lee, Yong-Won; Woo, Sang Won, et alARTICLE631 Magnesium(II) bis(trifluoromethane sulfonyl) imide-based electrolytes with wide electrochemical windows for rechargeable magnesium batteries
201403Graphene/Graphene-Tube Nanocomposites Templated from Cage-Containing Metal-Organic Frameworks for Oxygen Reduction in Li-O2 BatteriesLi, Qing; Xu, Ping; Gao, Wei, et alARTICLE456 Graphene/Graphene-Tube Nanocomposites Templated from Cage-Containing Metal-Organic Frameworks for Oxygen Reduction in Li-O2 Batteries
201402Quantum confinement and its related effects on the critical size of GeO2 nanoparticles anodes for lithium batteriesSon, Yoonkook; Park, Mihee; Son, Yeonguk, et alARTICLE546 Quantum confinement and its related effects on the critical size of GeO2 nanoparticles anodes for lithium batteries
2014023D Amorphous Silicon on Nanopillar Copper Electrodes as Anodes for High-Rate Lithium-Ion BatteriesKim, Gyutae; Jeong, Sookyung; Shin, Ju-Hyeon, et alARTICLE547 3D Amorphous Silicon on Nanopillar Copper Electrodes as Anodes for High-Rate Lithium-Ion Batteries
201402High performance LiMn2O4 cathode materials grown with epitaxial layered nanostructure for Li-Ion batteriesLee, Min-Joon; Lee, Sanghan; Oh, Pilgun, et alARTICLE608 High performance LiMn2O4 cathode materials grown with epitaxial layered nanostructure for Li-Ion batteries
2014Elastic a -silicon nanoparticle backboned graphene hybrid as a self-compacting anode for high-rate lithium ion batteriesCho, Jaephil; Ko, Minseong; Chae, Sujong, et alARTICLE462 Elastic a -silicon nanoparticle backboned graphene hybrid as a self-compacting anode for high-rate lithium ion batteries
201312Freeze-dried WS2 composites with low content of graphene as high-rate lithium storage materialsXu, Xiaodong; Rout, Chandra Sekhar; Yang, Jieun, et alARTICLE454 Freeze-dried WS2 composites with low content of graphene as high-rate lithium storage materials
201312Optimized 4-V spinel cathode material with high energy density for Li-Ion Cells Operating at 60 °CLee, Sanghan; Jeong, Minseul; Cho, JaephilARTICLE414 Optimized 4-V spinel cathode material with high energy density for Li-Ion Cells Operating at 60 °C
201312Recent progress on nanostructured 4 v cathode materials for Li-ion batteries for mobile electronicsXu, Xiaodong; Lee, Sanghan; Jeong, Sookyung, et alARTICLE507 Recent progress on nanostructured 4 v cathode materials for Li-ion batteries for mobile electronics
201312Porous nitrogen doped carbon fiber with churros morphology derived from electrospun bicomponent polymer as highly efficient electrocatalyst for Zn-air batteriesPark, Gi Su; Lee, Jang-Soo; Kim, Sun Tai, et alARTICLE549 Porous nitrogen doped carbon fiber with churros morphology derived from electrospun bicomponent polymer as highly efficient electrocatalyst for Zn-air batteries
201310Synergistic effect of carbon nanofiber/nanotube composite catalyst on carbon felt electrode for high-performance all-vanadium redox flow batteryPark, Minjoon; Jung, Yang-Jae; Kim, Jungyun, et alARTICLE436 Synergistic effect of carbon nanofiber/nanotube composite catalyst on carbon felt electrode for high-performance all-vanadium redox flow battery
201309Facile synthesis of hybrid graphene and carbon nanotubes as a metal-free electrocatalyst with active dual interfaces for efficient oxygen reduction reactionLee, Jang-Soo; Jo, Kiyoung; Lee, Taemin, et alARTICLE460 Facile synthesis of hybrid graphene and carbon nanotubes as a metal-free electrocatalyst with active dual interfaces for efficient oxygen reduction reaction
201308Critical Thickness of SiO2 Coating Layer on Core@Shell Bulk@Nanowire Si Anode Materials for Li-Ion BatteriesSim, Soojin; Oh, Pilgun; Park, Soojin, et alARTICLE562 Critical Thickness of SiO2 Coating Layer on Core@Shell Bulk@Nanowire Si Anode Materials for Li-Ion Batteries
201307Etched Graphite with Internally Grown Si Nanowires from Pores as an Anode for High Density Li-Ion BatteriesJeong, Sookyung; Lee, Jung-Pil; Ko, Minseong, et alARTICLE530 Etched Graphite with Internally Grown Si Nanowires from Pores as an Anode for High Density Li-Ion Batteries
201306Promotion of oxygen reduction by a bio-inspired tethered iron phthalocyanine carbon nanotube-based catalystCao, Ruiguo; Thapa, Ranjit; Kim, Hyejung, et alARTICLE916 Promotion of oxygen reduction by a bio-inspired tethered iron phthalocyanine carbon nanotube-based catalyst
201306Synthesis and characterization of patronite form of vanadium sulfide on graphitic layerRout, Chandra Sekhar; Kim, Byeong-Hwan; Xu, Xiaodong, et alARTICLE1105 Synthesis and characterization of patronite form of vanadium sulfide on graphitic layer

MENU