We have carried out systematic studies to synthesize new advanced nanomaterials including nanohybrids, nanoporous structures, and heterostructured multilayers by employing nanostructured inorganic and carbonaceous compounds as building blocks. In particular, we have synthesized 2D nanosheet-based hybrid materials with strong interfacial chemical interaction and electronic coupling to explore high performance functional materials as photocatalysts for water splitting and artificial photosynthesis, electrode materials for secondary batteries, supercapacitors, and solar cell, electrocatalysts, greenhouse gas adsorbents, biomolecules delivery vectors, and biosensors. To provide an insightful theoretical basis for designing new efficient functional materials, we have tried to elucidate a relationship between chemical bonding character and physicochemical properties of nanostructured materials using up-to-date characterization techniques (XANES/EXAFS, XRD-PDF, Rietveld refinement, etc)
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연구 키워드
대학원 지원 일정·절차는 소속 대학·대학원 및 학과(전공)마다 다릅니다. 해당 학교의 대학원 모집 공지와 지원 안내를 먼저 확인해 주세요. 연구실별로 필요 서류, 면접·과제 제출, 합격 후 입학 절차 등은 교수님 또는 연구실 안내에 따릅니다.
2026 Joule
2026 Journal of Energy Storage
2026 Energy Conversion and Management: X
