Young Jin Sa
Kwangwoon University
H-index: 31
Asia-South Korea
Top articles of Young Jin Sa
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
Ce4+/Ce3+ Redox-Promoted Electron Transfer for Efficient Neutral H2O2 Electrosynthesis from Two-Electron Oxygen Reduction | ACS Catalysis | Sohee Kim Young Jin Sa | 2024/4/18 |
H2O2 electrosynthesis activity and selectivity of Pd–Te nanoparticles with different surface compositions in acidic electrolyte | Applied Surface Science | Yesol Lee Jueun Koh Hojung Ahn Hongje Jang Young Jin Sa | 2024/2/28 |
Electronic Structure Modification of Metal Phthalocyanines by Carbon Nanotube Support for Efficient Oxygen Reduction to Hydrogen Peroxide | Nanoscale | Yesol Lee Chaehyeon Lee Seoin Back Young Jin Sa | 2024 |
Discriminating active sites for the electrochemical synthesis of H 2 O 2 by molecular functionalisation of carbon nanotubes | Nanoscale | Juyeon Lee Yesol Lee June Sung Lim Sun Woo Kim Hongje Jang | 2023 |
Mesoporous manganese oxides with high-valent Mn species and disordered local structures for efficient oxygen electrocatalysis | ACS Applied Materials & Interfaces | Young Jin Sa Sohee Kim Yesol Lee Ji Man Kim Sang Hoon Joo | 2023/6/20 |
Impact of catalyst loading of atomically dispersed transition metal catalysts on H2O2 electrosynthesis selectivity | Electrochimica Acta | June Sung Lim Jinjong Kim Kug-Seung Lee Young Jin Sa Sang Hoon Joo | 2023/3/10 |
Steering catalytic selectivity with atomically dispersed metal electrocatalysts for renewable energy conversion and commodity chemical production | Jae Hyung Kim Young Jin Sa Taejung Lim Jinwoo Woo Sang Hoon Joo | 2022/9/6 | |
Catalyst design, measurement guidelines, and device integration for H2O2 electrosynthesis from oxygen reduction | June Sung Lim Young Jin Sa Sang Hoon Joo | 2022/8/17 | |
Pd17Se15-Pd3B nanocoral electrocatalyst for selective oxygen reduction to hydrogen peroxide in near-neutral electrolyte | Applied Catalysis B: Environmental | Juyeon Lee Seung Woo Choi Seoin Back Hongje Jang Young Jin Sa | 2022/7/15 |
Designing Highly Active Nanoporous Carbon Electrocatalysts for H2O2 Production Via Active Site Elucidation | Electrochemical Society Meeting Abstracts 241 | June Sung Lim Jae Hyung Kim Jinwoo Woo Du San Baek Young Jin Sa | 2022/7/7 |
Designing Highly Active Carbon-based Electrocatalysts for H2O2 Production through Active Site Elucidation | June Sung Lim Jinwoo Woo Du San Baek Young Jin Sa Sang Hoon Joo | 2021/4/23 | |
Unveiling the Cationic Promotion Effect of H2O2 Electrosynthesis Activity of O-Doped Carbons | ACS Applied Materials & Interfaces | Juyeon Lee June Sung Lim Gyeonghye Yim Hongje Jang Sang Hoon Joo | 2021/12/9 |
Designing highly active nanoporous carbon H2O2 production electrocatalysts through active site identification | Chem | June Sung Lim Jae Hyung Kim Jinwoo Woo Du San Baek Kyuwook Ihm | 2021/11/11 |
Design of Highly Active Carbon-Based H2O2 Production Electrocatalysts via Active Site Elucidation | June Sung Lim Young Jin Sa Sang Hoon Joo | 2021/10/14 | |
Designing Highly Active Carbon-based Materials for Electrocatalytic H2O2 Production via Active Site Identification | June Sung Lim Jinwoo Woo Du San Baek Young Jin Sa Sang Hoon Joo | 2021/8/31 | |
Structural Evolution of Atomically Dispersed Fe Species in Fe–N/C Catalysts Probed by X-ray Absorption and 57Fe Mössbauer Spectroscopies | The Journal of Physical Chemistry C | Jinwoo Woo Hyunkyung Choi Young Jin Sa Ho Young Kim Taejung Lim | 2021/5/27 |
Mass Transport Control by Surface Graphene Oxide for Selective CO Production from Electrochemical CO2 Reduction | ACS Catalysis | Dang Le Tri Nguyen Chan Woo Lee Jonggeol Na Min-Cheol Kim Nguyen Dien Kha Tu | 2020/2/6 |
Catalyst–electrolyte interface chemistry for electrochemical CO 2 reduction | Young Jin Sa Chan Woo Lee Si Young Lee Jonggeol Na Ung Lee | 2020 | |
Electrochemical oxidation of toluene with controlled selectivity: The effect of carbon anode | Applied Surface Science | Bora Seo Woong Hee Lee Young Jin Sa Ung Lee Hyung-Suk Oh | 2020/12/30 |
Thermal Transformation of Molecular Ni2+–N4 Sites for Enhanced CO2 Electroreduction Activity | ACS Catalysis | Young Jin Sa Hyejin Jung Dongyup Shin Hu Young Jeong Stefan Ringe | 2020/8/31 |