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Tetrazine ligation chemistry for cleavable linker design in antibody-drug conjugates

세미나가 다음주 목요일(6월 4일) 오후 4시 30분에 개최됩니다. 많은 참여 부탁드립니다.===================================================================- 제목 : Tetrazine ligation chemistry for cleavable linker design in antibody-drug conjugates- 연사 : 김은하 교수님(아주대학교 분자과학기술학과)- 일시 : 2026년 6월 4일(목) 오후 4시 30분- 장소 : 화학관 2층 330226호실===================================================================* 졸업논문 교과목 수강자 세미나 필수 참석 안내석사, 석박통합, 박사과정이 수강하는 <졸업논문연구학점 1~6>수강자는 학과에서 개최하는 목요일 정규세미나에 반드시 참석해야함.관련공지(skku.edu)https://skb.skku.edu/chem/News/notice.do?mode=view&articleNo=146936&article.offset=10&articleLimit=10)
- 2026년 6월 4일(목) 오후 4시 30분
- 서병인 강의실(330226호)
- POSTED DATE : 2026-05-29
- WRITER : 화학과
- HIT : 305
Nitrogen-Embedded Polycyclic Aromatic Molecules: From Synthetic Exploration to Functional Applications

특별 세미나가 이번주 금요일(5월 29일) 오전 10시 30분에 개최됩니다. 많은 참여 부탁드립니다.===================================================================- 제목 : Nitrogen-Embedded Polycyclic Aromatic Molecules: From Synthetic Exploration to Functional Applications- 연사 : Prof. Shingo Ito(School of Chemistry, Chemical Engineering and Biotechnology Nanyang Technological University- 일시 : 2026년 5월 29일(금) 오전 10시 30분- 장소 : 화학관 1층 330118호실===================================================================
- 2026년 5월 29일(금) 오전 10시 30분
- 330118호
- POSTED DATE : 2026-05-28
- WRITER : 화학과
- HIT : 287
New Avenues in Cyclase Phase Synthesis

특별 세미나가 수요일(5월 27일) 오후 4시 30분에 개최됩니다. 많은 참여 부탁드립니다.===================================================================- 제목 : New Avenues in Cyclase Phase Synthesis- 연사 : Prof. Alex Schuppe (Department of Chemistry, Vanderbilt University)- 일시 : 2026년 5월 27일(수) 오후 4시 30분- 장소 : 반도체관 1층 400112호===================================================================
- 2026년 5월 27일(수) 오후 4시 30분
- 반도체관 1층 400112호
- POSTED DATE : 2026-05-27
- WRITER : 화학과
- HIT : 261
Rational Design of Non-Precious bifunctional Electrocatalysts for Efficient Water Splitting

세미나가 다음주 목요일(5월 28일) 오후 4시 30분에 개최됩니다. 많은 참여 부탁드립니다.===================================================================- 제목 : Rational Design of Non-Precious bifunctional Electrocatalysts for Efficient Water Splitting- 연사 : 김도환 교수님(전북대학교 화학교육과)- 일시 : 2026년 5월 28일(목) 오후 4시 30분- 장소 : 화학관 2층 330226호실===================================================================Rational Design of Non-Precious bifunctional Electrocatalysts for Efficient Water SplittingDo Hwan KimDepartment of Chemistry Education and Institute of Fusion Science, Graduate School of Department of Energy Storage / Conversion Engineering, Jeonbuk National University, KoreaE-mail: dhk201@jbnu.ac.kr The rational design of multifunctional electrocatalysts for the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) is essential for advancing sustainable energy conversion and storage technologies. In this study, we integrated density functional theory (DFT) calculations with experimental investigations to elucidate how hierarchical surface and support architectures govern catalytic performance. Theoretical analysis revealed a markedly enhanced density of states near the Fermi level, conferring improved electrical conductivity. The Gibbs free energy for hydrogen adsorption approached zero, signifying optimal HER activity, while OER pathways exhibited low overpotentials and well-balanced energy barriers. Guided by these predictions, we synthesized and systematically characterized the catalyst, which demonstrated low overpotentials for both HER and OER, favorable Tafel slopes, and outstanding long-term stability. Structural and compositional analyses confirmed the targeted design features, including uniform surface morphology and robust support integration. This work highlights the synergistic interplay between computational modeling and experimental validation, underscoring the critical role of electronic structure tuning and intermediate adsorption energetics in the development of high-performance multifunctional electrocatalysts.* 졸업논문 교과목 수강자 세미나 필수 참석 안내석사, 석박통합, 박사과정이 수강하는 <졸업논문연구학점 1~6>수강자는 학과에서 개최하는 목요일 정규세미나에 반드시 참석해야함.관련공지(skku.edu)https://skb.skku.edu/chem/News/notice.do?mode=view&articleNo=146936&article.offset=10&articleLimit=10)
- 2026년 5월 28일(목) 오후 4시 30분
- 서병인 강의실(330226호)
- POSTED DATE : 2026-05-22
- WRITER : 화학과
- HIT : 409
[IBS 2DQH Seminar] Prof. Xinliang Feng (Max Planck Institute of Microstructure Physics)

아래와 같이 IBS 2DQH Seminar 안내드립니다.관심있는 분들의 참여 부탁드립니다.==================================================================일정 : 2026년 6월 4일(목) 오전 10:30 ~ 장소 : N센터 86171호 세미나 연사: Xinliang Feng (Max Planck Institute of Microstructure Physics)
- POSTED DATE : 2026-05-22
- WRITER : 화학과
- HIT : 490
[IBS 2DQH Seminar] Prof. Deep Jariwala(Pennsylvania University)

아래와 같이 IBS 2DQH Seminar 안내드립니다.관심있는 분들의 참여 부탁드립니다.==================================================================일정 : 2026년 5월 22일(금) 오후 15:30 ~ 장소 : N센터 86171호 세미나 연사: Deep Jariwala(Pennsylvania University)
- POSTED DATE : 2026-05-22
- WRITER : 화학과
- HIT : 164
Next-Generation Batteries Enabled by Interfacial Reprogramming

세미나가 다음주 목요일(5월 21일) 오후 4시 30분에 개최됩니다. 많은 참여 부탁드립니다.===================================================================- 제목 : Next-Generation Batteries Enabled by Interfacial Reprogramming- 연사 : 강미숙 교수님(영남대학교 화학과)- 일시 : 2026년 5월 21일(목) 오후 4시 30분- 장소 : 화학관 2층 330226호실===================================================================Next-Generation Batteries Enabled by Interfacial ReprogrammingMisook KangYeungnam University Department of ChemistryIn this seminar, the latest technological trends in the secondary battery industry, which has emerged as a core infrastructure for the global energy transition and AI-driven industrial expansion, will be introduced together with advanced interface design strategies for next-generation batteries. Recently, secondary batteries have rapidly expanded into key applications including electric vehicles, AI data centers, energy storage systems (ESS), robotics, and future mobility technologies. Accordingly, interface-engineered materials capable of simultaneously achieving high energy density, superior stability, and fast-charging capability have become increasingly important.In the cathode materials section, studies on LiFePO₄ (LFP) and Li-rich layered oxide (LLO) cathodes will be presented, focusing on strategies to overcome structural instability and interfacial degradation during repeated charge–discharge cycling. In particular, for LFP cathodes, an Al–F–C interfacial reprogramming strategy that dynamically constructs a cathode–electrolyte interphase (CEI) is introduced to enhance Li⁺ transport and charge-transfer characteristics. In addition, for LLO cathodes, a fluorinated AlPO₄-based interface engineering approach is discussed, which mitigates structural collapse and voltage fading associated with oxygen redox activation while simultaneously stabilizing Li⁺ migration pathways and structural reversibility.In the anode materials section, Li⁺ transport bottlenecks and structural degradation issues in graphite- and silicon-based anodes are discussed. First, a double-layer carbon strategy employing a C–N stitched rGO/graphite bilayer structure is introduced, where Li⁺ adsorption–migration–diffusion processes are actively regulated to improve Li⁺ diffusion kinetics and interfacial charge modulation. Furthermore, for silicon anodes, an adaptive graphene encapsulation structure is presented as a muscle-like self-protective carbon interface capable of alleviating the severe volume expansion and interfacial collapse that occur during repeated cycling.For next-generation all-solid-state batteries, interfacial stabilization strategies are introduced to address interfacial decomposition and resistance growth occurring between argyrodite sulfide solid electrolytes and Ni-rich NCM811 cathodes. In particular, a halogen-programmed Li₃PO₄-based buffer coating is discussed, which forms a self-adaptive interface capable of simultaneously improving Li⁺ transport stability and interfacial durability. In addition, a next-generation organic–inorganic hybrid solid electrolyte platform based on a PEO-derived flexible oxysulfate hybrid electrolyte is presented, designed to alleviate both the strong stack-pressure dependence and moisture sensitivity commonly associated with sulfide-based solid-state batteries.In conclusion, this seminar emphasizes that the fundamental bottleneck governing battery performance lies not simply in the intrinsic properties of materials themselves, but rather in the control of interfaces and Li⁺ transport. Based on atomic- and nanoscale interfacial engineering, future directions toward simultaneously realizing high energy density, excellent stability, and fast-charging capability in next-generation secondary batteries will be discussed. * 졸업논문 교과목 수강자 세미나 필수 참석 안내석사, 석박통합, 박사과정이 수강하는 <졸업논문연구학점 1~6>수강자는 학과에서 개최하는 목요일 정규세미나에 반드시 참석해야함.관련공지(skku.edu)https://skb.skku.edu/chem/News/notice.do?mode=view&articleNo=146936&article.offset=10&articleLimit=10)
- 2026년 5월 21일(목) 오후 4시 30분
- 서병인 강의실(330226호)
- POSTED DATE : 2026-05-15
- WRITER : 화학과
- HIT : 477
Computational Design of Water-Resistant Adhesives Mimicking the Mussel Foot Proteins

세미나가 다음주 목요일(5월 14일) 오후 4시 30분에 개최됩니다. 많은 참여 부탁드립니다.===================================================================- 제목 : Computational Design of Water-Resistant Adhesives Mimicking the Mussel Foot Proteins- 연사 : 장준경 교수님(부산대학교 나노에너지공학과)- 일시 : 2026년 5월 14일(목) 오후 4시 30분- 장소 : 화학관 2층 330226호실===================================================================Computational Design of Water-Resistant Adhesives Mimicking the Mussel Foot Proteins Joonkyung Jang School of Transdisciplinary Engineering, Pusan National University, Busan, South Korea E-Mail : jkjang@pusan.ac.kr Mussel foot proteins (MFPs) adhere to virtually any surfaces under wet conditions. Little is known about the molecular origin of the underwater adhesion of MFP onto a hydrophobic surface. By using molecular dynamics simulation, we investigate the structure, dynamics, and energy of the wet adhesion of MFP onto a hydrophobic graphite. The MFP anchors on the surface by contacting three L-3,4-dihydroxyphenylalanine (DOPA) groups. By using the density functional theory (DFT), we designed 170 DOPA derivatives for possible waterproof adhesives. By using the electrostatic potential calculated by using DFT as a quantum descriptor of molecular structure, we propose a novel quantitative structure-property relationship for the adhesion energies of the DOPA derivatives.1 * 졸업논문 교과목 수강자 세미나 필수 참석 안내석사, 석박통합, 박사과정이 수강하는 <졸업논문연구학점 1~6>수강자는 학과에서 개최하는 목요일 정규세미나에 반드시 참석해야함.관련공지(skku.edu)https://skb.skku.edu/chem/News/notice.do?mode=view&articleNo=146936&article.offset=10&articleLimit=10)
- 2026년 5월 14일(목) 오후 4시 30분
- 서병인 강의실(330226호)
- POSTED DATE : 2026-05-08
- WRITER : 화학과
- HIT : 562
Development of Small Molecule Modulators for Immune-Mediated Inflammatory Diseases

세미나가 이번주 목요일(5월 7일) 오후 4시 30분에 개최됩니다. 많은 참여 부탁드립니다.===================================================================- 제목 : Development of Small Molecule Modulators for Immune-Mediated Inflammatory Diseases- 연사 : 민선준 교수님(한양대학교 에너지바이오학과/응용화학과)- 일시 : 2026년 5월 7일(목) 오후 4시 30분- 장소 : 화학관 2층 330226호실===================================================================* 졸업논문 교과목 수강자 세미나 필수 참석 안내석사, 석박통합, 박사과정이 수강하는 <졸업논문연구학점 1~6>수강자는 학과에서 개최하는 목요일 정규세미나에 반드시 참석해야함.관련공지(skku.edu)https://skb.skku.edu/chem/News/notice.do?mode=view&articleNo=146936&article.offset=10&articleLimit=10)
- 2026년 5월 7일(목) 오후 4시 30분
- 서병인 강의실(330226호)
- POSTED DATE : 2026-05-04
- WRITER : 화학과
- HIT : 620
Coordination chemistry of assembled metal-organic compounds

세미나가 다음주 목요일(4월 30일) 오후 4시 30분에 개최됩니다. 많은 참여 부탁드립니다.===================================================================- 제목 : Coordination chemistry of assembled metal-organic compounds- 연사 : 민길식 교수님(경북대학교 화학교육과)- 일시 : 2026년 4월 30일(목) 오후 4시 30분- 장소 : 화학관 2층 330226호실===================================================================* 졸업논문 교과목 수강자 세미나 필수 참석 안내석사, 석박통합, 박사과정이 수강하는 <졸업논문연구학점 1~6>수강자는 학과에서 개최하는 목요일 정규세미나에 반드시 참석해야함.관련공지(skku.edu)https://skb.skku.edu/chem/News/notice.do?mode=view&articleNo=146936&article.offset=10&articleLimit=10)
- 2026년 4월 30일(목) 오후 4시 30분
- 서병인 강의실(330226호)
- POSTED DATE : 2026-04-23
- WRITER : 화학과
- HIT : 808