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이무영
Moo Young Lee
PhD · Seoul National University
12
논문
0
교신저자
2019–2025
활동 기간
Oxidation10CO212Peptide-bio1
연구 프로필
이무영 님은 2019–2025년 동안 Oxidation·CO2·Peptide-bio 팀에서 총 12편의 논문에 참여했습니다.
주요 주제
#water oxidation#Mn3O4 catalyst#electrocatalysis#electrosynthesis#water splitting#amino acid
소개
Moo Young Lee (이무영)
기본 정보
| 항목 | 값 |
|---|---|
| 한글 이름 | 이무영 |
| 역할 (homepage) | PhD |
| 현재 소속 | Seoul National University |
| 졸업 연도 | 2024 |
| 이메일 | mylee002@snu.ac.kr |
| 활동 시기 | 2019~2025 |
| 참여 논문 | 12편 |
| Corresponding | 0회 |
| 주 팀 분포 | CO₂(12), Oxidation(10), Peptide-bio(1) |
| 연구 주제 (homepage) | - |
| Homepage status | alumni |
| 기타 소속 이력 | Seoul National University |
한 줄 정의
CO₂·Oxidation 양쪽 라인을 모두 다룬 박사 졸업생으로, FDCA·메탄올 산화·paired electrosynthesis의 다능형 기여자.
시그니처 라인
Paired electrosynthesis 다영역 — CO₂ 환원과 메탄올·푸르푸랄 산화를 양극·음극 쌍으로 묶는 lab의 paired 전략 일관 기여.
참여 논문
| 연도 | 저널 | 제목 | corresponding? |
|---|---|---|---|
| 2019 | - | Methylamine Treated Mn₃O₄ Nanoparticles as a Highly Efficient Water Oxidation Catalyst und | |
| 2019 | - | Template for Electronic Submission to ACS Journals | |
| 2020 | - | Uniform, Assembled 4 nm Mn₃O₄ Nanoparticles as Efficient Water Oxidation Electrocatalysts | |
| 2020 | - | Manganese oxide-based heterogeneous electrocatalysts for water oxidation | |
| 2020 | - | Supplementary Information Spectroscopic capture of a low-spin Mn(IV)-oxo species in Ni-Mn₃ | |
| 2021 | - | Capturing Manganese Oxide Intermediates in Electrochemical Water Oxidation at Neutral pH b | |
| 2021 | - | Electrochemical Synthesis of Glycine from Oxalic Acid and Nitrate | |
| 2022 | - | Anodic Generation of Lewis Acid for the Electrochemical Synthesis of Methyl Formate from C | |
| 2023 | - | [Supporting Information] Iridium-Cooperated, Symmetry-Broken Manganese Oxide Nanocatalyst | |
| 2025 | - | Supporting Information Electrochemical Synthesis of 2,5-Furandicarboxylic Acid (FDCA) from | |
| 2025 | - | [Supplementary Information] Electrochemical deprotonation of halohydrins enables cascading | |
| 2025 | - | Supporting Information Bioinspired Lignin-Aluminosilicate Composite for CO₂ Storage Jeong |
총 12편
관련 노트
- 주 팀 개관: 참여 팀별 00_team_overview.md 참조
- 함께 활동하는 인물: Ki_Tae_Nam.md (PI)
참여 논문 (12)
2025· ACS Omega
Bioinspired Lignin-Aluminosilicate Composite for CO2 Storage
CO2
2025· Nature Communications
Electrochemical deprotonation of halohydrins enables cascading reactions for CO2 capture and conversion into ethylene carbonate
CO2
2025· ACS Sustainable Chemistry & Engineering
Electrochemical Synthesis of 2,5-Furandicarboxylic Acid from Furfural Derivative and Carbon Dioxide
CO2
2023· Journal of the American Chemical Society
Iridium-Cooperated, Symmetry-Broken Manganese Oxide Nanocatalyst for Water Oxidation
Oxidation
2022· The Journal of Physical Chemistry C
Anodic Generation of Lewis Acid for the Electrochemical Synthesis of Methyl Formate from CO2
CO2
2021· Angewandte Chemie International Edition
Electrochemical Synthesis of Glycine from Oxalic Acid and Nitrate
CO2Peptide-bio
2021· Angewandte Chemie International Edition
Capturing Manganese Oxide Intermediates in Electrochemical Water Oxidation at Neutral pH by In Situ Raman Spectroscopy
Oxidation
2020· Nature Communications
Spectroscopic capture of a low-spin Mn(IV)-oxo species in Ni⠍Mn3O4 nanoparticles during water oxidation catalysis
Oxidation
2020· Energy & Environmental Science
Manganese oxide-based heterogeneous electrocatalysts for water oxidation
CO2Oxidation
2020· Advanced Functional Materials
Uniform, Assembled 4 nm Mn3O4 Nanoparticles as Efficient Water Oxidation Electrocatalysts at Neutral pH
CO2Oxidation
2019· ACS Catalysis
Importance of Interfacial Band Structure between the Substrate and Mn3O4 Nanocatalysts during Electrochemical Water Oxidation
CO2Oxidation
2019· ChemCatChem
Methylamine Treated Mn3O4 Nanoparticles as a Highly Efficient Water Oxidation Catalyst under Neutral Condition
Oxidation