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Lee, Sang-Young (이상영)

Department
School of Energy and Chemical Engineering(에너지및화학공학부)
Research Interests
Soft Materials for Energy Storage/ Conversion Systems
Lab
Energy Soft-Materials Lab (ESML)
E-Mail
syleek@unist.ac.kr
Website
http://syleek.unist.ac.kr/
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Issue DateTitleAuthor(s)TypeViewAltmetrics
201801Current Status and Challenges in Printed Batteries: Toward Form Factor-Free, Monolithic Integrated Power SourcesChoi, Keun-Ho; Ahn, David B.; Lee, Sang-YoungARTICLE14 Current Status and Challenges in Printed Batteries: Toward Form Factor-Free, Monolithic Integrated Power Sources
201711All-Nanomat Lithium-Ion Batteries: A New Cell Architecture Platform for Ultrahigh Energy Density and Mechanical FlexibilityKim, Ju-Myung; Kim, Jeong A.; Kim, Seung-Hyeok, et alARTICLE47 All-Nanomat Lithium-Ion Batteries: A New Cell Architecture Platform for Ultrahigh Energy Density and Mechanical Flexibility
201707Coffee-Driven Green Activation of Cellulose and Its Use for All-Paper Flexible SupercapacitorsLee, Donggue; Cho, Yoon-Gyo; Song, Hyun-Kon, et alARTICLE99 Coffee-Driven Green Activation of Cellulose and Its Use for All-Paper Flexible Supercapacitors
201706One-pot surface engineering of battery electrode materials with metallic SWCNT-enriched, ivy-like conductive nanonetsYoo, JongTae; Ju, Young-Wan; Jang, Ye-Ri, et alARTICLE121 One-pot surface engineering of battery electrode materials with metallic SWCNT-enriched, ivy-like conductive nanonets
201704Monolithically integrated, photo-rechargeable portable power sources based on miniaturized Si solar cells and printed solid-state lithium-ion batteriesUm, Han-Don; Choi, Keun-Ho; Hwang, Inchan, et alARTICLE121 Monolithically integrated, photo-rechargeable portable power sources based on miniaturized Si solar cells and printed solid-state lithium-ion batteries
201704Polysulfide-Breathing/Dual-Conductive, Heterolayered Battery Separator Membranes Based on 0D/1D Mingled Nanomaterial Composite MatsKim, Jeong-Hoon; Jung, Gwan Yeong; Lee, Yong-Hyeok, et alARTICLE120 Polysulfide-Breathing/Dual-Conductive, Heterolayered Battery Separator Membranes Based on 0D/1D Mingled Nanomaterial Composite Mats
201701Beyond slurry-cast supercapacitor electrodes: PAN/MWNT heteromat-mediated ultrahigh capacitance electrode sheetsLee, Jung Han; Kim, Jeong A; Kim, Ju-Myung, et alARTICLE284 Beyond slurry-cast supercapacitor electrodes: PAN/MWNT heteromat-mediated ultrahigh capacitance electrode sheets
201610Janus-Faced, Dual-Conductive/Chemically Active Battery Separator MembranesOh, Yeon-Su; Jung, Gwan Yeong; Kim, Jeong-Hoon, et alARTICLE241 Janus-Faced, Dual-Conductive/Chemically Active Battery Separator Membranes
201610Molecularly designed, dual-doped mesoporous carbon/SWCNT nanoshields for lithium battery electrode materialsJang, Ye-Ri; Kim, Ju-Myung; Lee, Jung-Han, et alARTICLE285 Molecularly designed, dual-doped mesoporous carbon/SWCNT nanoshields for lithium battery electrode materials
201610Current Status and Future Research Directions of Separator Membranes for Lithium-Ion Rechargeable BatteriesKim, Jung-Hwan; Lee, Sang-YoungARTICLE129 Current Status and Future Research Directions of Separator Membranes for Lithium-Ion Rechargeable Batteries
201609Functionalized Nanocellulose-Integrated Heterolayered Nanomats toward Smart Battery SeparatorsKim, Jung-Hwan; Gu, Minsu; Lee, Do Hyun, et alARTICLE164 Functionalized Nanocellulose-Integrated Heterolayered Nanomats toward Smart Battery Separators
201609All-inkjet-printed, solid-state flexible supercapacitors on paperChoi, Keun-Ho.; Yoo, JongTae; Lee, Chang Kee, et alARTICLE473 All-inkjet-printed, solid-state flexible supercapacitors on paper
201607Toward Ultrahigh-Capacity V2O5 Lithium-Ion Battery Cathodes via One-Pot Synthetic Route from Precursors to Electrode SheetsLee, Jung Han; Kim, Ju-Myung; Kim, Jung-Hwan, et alARTICLE234 Toward Ultrahigh-Capacity V2O5 Lithium-Ion Battery Cathodes via One-Pot Synthetic Route from Precursors to Electrode Sheets
201606Revisiting Surface Modification of Graphite: Dual-Layer Coating for High-Performance Lithium Battery Anode MaterialsSong, Gyujin; Ryu, Jaegeon; Ko, Seunghee, et alARTICLE467 Revisiting Surface Modification of Graphite: Dual-Layer Coating for High-Performance Lithium Battery Anode Materials
201605Multifunctional natural agarose as an alternative material for high-performance rechargeable lithium-ion batteriesHwang, Gaeun; Kim, Ju-Myung; Hong, Dongki, et alARTICLE362 Multifunctional natural agarose as an alternative material for high-performance rechargeable lithium-ion batteries
201605COF-Net on CNT-Net as a Molecularly Designed, Hierarchical Porous Chemical Trap for Polysulfides in Lithium-Sulfur BatteriesYoo, JongTae; Cho, Sung-Ju; Jung, Gwan Yeong, et alARTICLE301 COF-Net on CNT-Net as a Molecularly Designed, Hierarchical Porous Chemical Trap for Polysulfides in Lithium-Sulfur Batteries
201603Artificially engineered, bicontinuous anion-conducting/-repelling polymeric phases as a selective ion transport channel for rechargeable zinc-air battery separator membranesKim, Hyun-Woo; Lim, Jun-Muk; Lee, Hyeon-Ji, et alARTICLE378 Artificially engineered, bicontinuous anion-conducting/-repelling polymeric phases as a selective ion transport channel for rechargeable zinc-air battery separator membranes
201602Electrospun polyetherimide nanofiber mat-reinforced, permselective polyvinyl alcohol composite separator membranes: A membrane-driven step closer toward rechargeable zinc-air batteriesLee, Hyeon-Ji; Lim, Jun-Muk; Kim, Hyun-Woo, et alARTICLE431 Electrospun polyetherimide nanofiber mat-reinforced, permselective polyvinyl alcohol composite separator membranes: A membrane-driven step closer toward rechargeable zinc-air batteries
2016011D building blocks-intermingled heteronanomats as a platform architecture for high-performance ultrahigh-capacity lithium-ion battery cathodesKim, Ju-Myung; Park, Chang-Hoon; Wu, Qinglin, et alARTICLE396 1D building blocks-intermingled heteronanomats as a platform architecture for high-performance ultrahigh-capacity lithium-ion battery cathodes
201601An effective coupling of nanostructured Si and gel polymer electrolytes for high-performance lithium-ion battery anodesBok, Taesoo; Cho, Sung-Ju; Choi, Sinho, et alARTICLE317 An effective coupling of nanostructured Si and gel polymer electrolytes for high-performance lithium-ion battery anodes

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