Lee Jai-young | Department Of Environment Engineering University Of Seoul
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概要
関連著者
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LEE Jai-Young
Department of Materials Science and Engineering, Korea Advanced Institute of Science and Technology
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Lee Jai-young
Department Of Environment Engineering University Of Seoul
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Oh Byung-Taek
Division of Biotechnology, College of Environmental and Bioresource Sciences, Chonbuk National Unive
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Oh Byung-taek
Division Of Biotechnology College Of Environmental And Bioresource Sciences Chonbuk National Univers
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Oh Byung-taek
Division Of Biotechnology Advanced Institute Of Environment And Bioscience College Of Environmental
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Lee J‐y
Univ. Seoul Seoul Kor
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Lee June
Microelectronics Laboratory Materials And Device Sector Samsung Advanced Institute Of Technology
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PARK Youngsoo
Microelectronics Laboratory, Materials and Device Sector, Samsung Advanced Institute of Technology
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CHUNG Ilsub
Microelectronics Laboratory, Materials and Device Sector, Samsung Advanced Institute of Technology
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YOUM Sun
Department of Environmental Engineering, The University of Seoul
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CHOI Sang-Il
Department of Environmental Engineering, Kwangwoon University
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Youm Sun
Department Of Environmental Engineering The University Of Seoul
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Choi Sang-il
Department Of Environmental Engineering Kwangwoon University
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JEONG Ji-Hoon
Department of Environment Engineering, University of Seoul
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Lee Jai-young
Department Of Environmental Engineering The University Of Seoul
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Jeong Ji-hoon
Department Of Environment Engineering University Of Seoul
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Chung Ilsub
Microelectronics And Device Laboratory Samsung Advanced Institute Of Technology
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Chung Ilsub
Microelectronics Laboratory Materials And Device Sector Samsung Advanced Institute Of Technology
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Park Youngsoo
Microelectronics Laboratory Materials And Device Sector Samsung Advanced Institute Of Technology
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Oh Byung-taek
Division Of Biotechnology College Of Environmental And Bioresource Sciences Chonbuk National Univers
著作論文
- Effect of Oxygen Plasma Treatment on Hydrogen-Damaged Pt/Pb(Zr_xTi_)O_3/Pt Ferroelectric Thin-Film Capacitor
- Removal of mixed contaminants by Fe^0-based biobarrier in flow-through columns using recycled waste materials
- A feasibility study of thermal hydrolysis by-products as barrier layer materials in the final cover system for a landfill