양지웅
Yang, JiwoongDepartment of Energy Science and Engineering
학력
- 2013 ~ 2016서울대학교 박사
- 2011 ~ 2013서울대학교 석사
- 2007 ~ 2011서울대학교 학사
경력
- 2017 ~ 2019Lawrence Berkeley National Lab / 박사후연구원
- 2016 ~ 2017서울대학교 / 선임연구원
수상실적
- 2025 총장표창 / DGIST
- 2023 총장표창 / DGIST
- 2016 우수논문상 / 서울대학교
- 2016 우수논문상 / Material Research Society
- 2011 최우등학생 수상 / 서울대학교
연구실 소개
- NanoMaterials Laboratory
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Jiwoong Yang Group @DGIST is interested in the design and synthesis of novel inorganic nanomaterials for energy & electronic applications. Nanomaterials offer unique properties that can not be achieved by their bulk counterparts. Nanotechnology will provide key contributions for the next-generation energy & electronic applications. To achieve our goals, we are using multidisciplinary approaches with state-of-the-art characterization methods including liquid-phase TEM and optical & X-ray spectroscopy. We like to interact with scientists who have creative mind and we are open to collaboration and discussion. We welcome highly motivated graduate students & post-doctors. To apply, please send an e-mail to Prof. Jiwoong Yang (jiwoongyang@dgist.ac.kr) (for post-docs, CV is required). Feel free to contact.Research area:(1) Synthesis of colloidal nanomaterials (e.g. semiconductor nanocrystal quantum dots, metal nanocrystals) (2) Characterization of nanomaterials (TEM, in-situ TEM, spectroscopy)(3) Device applications of semiconductor nanocrystals (QD-solar cells, QLEDs)
Research Interests
Related Keyword
- "Recent Progress on the Development of Intrinsically Stretchable Electroluminescent Devices", Small, v.21, no.37
- "Ce-doped NiCoP/ Co3O4 composite Nanostructures on Ni foam and their enhanced performance for water and urea electrolysis", Liu, Zhe. (2025-08). Ce-doped NiCoP/ Co3O4 composite Nanostructures on Ni foam and their enhanced performance for water and urea electrolysis. Journal of Colloid and Interface Science, 692. doi: 10.1016/j.jcis.2025.137542
- "Intrinsically-Stretchable and Patternable Quantum Dot Color Conversion Layers for Stretchable Displays in Robotic Skin and Wearable Electronics", Advanced Materials, v.37, no.32
- "Multifunctional electronic skin integrating dual-mode optical and pressure sensors for caregiving robots", Nanoscale Horizons, no.11
- "Unveiling Formation Pathways of Ternary I-III-VI CuInS2 Quantum Dots and Their Effect on Photoelectrochemical Hydrogen Generation", Advanced Science, v.12, no.31
- "Surface Bromination of CsPbI3 Perovskite Nanocrystals for Highly Efficient Pure Red Light-emitting Diodes in Skin-attachable Displays", 손희용. (2024-10-02). Surface Bromination of CsPbI3 Perovskite Nanocrystals for Highly Efficient Pure Red Light-emitting Diodes in Skin-attachable Displays. 2024년도 한국고분자학회 추계 정기총회 및 학술대회, 177–177.
- "Ultralong Silver Nanowires Patterning Using Intaglio Printing for High-Resolution Wearable Electrophysiological Sensors", 배이경. (2024-10-02). Ultralong Silver Nanowires Patterning Using Intaglio Printing for High-Resolution Wearable Electrophysiological Sensors. 2024년도 한국고분자학회 추계 정기총회 및 학술대회, 177–177.
- "Long Chain Ligands of Quantum Dots to Enhance Patterning Yield of 100%", 서중덕. (2024-10-02). Long Chain Ligands of Quantum Dots to Enhance Patterning Yield of 100%. 2024년도 한국고분자학회 추계 정기총회 및 학술대회, 177–177.
- "Advanced Full-Color Perovskite Nanocrystal Patterning for Next-Generation Ultrathin Skin-Attachable Displays", 김지원. (2024-10-01). Advanced Full-Color Perovskite Nanocrystal Patterning for Next-Generation Ultrathin Skin-Attachable Displays. 2024년도 한국고분자학회 추계 정기총회 및 학술대회, 124–124.
- "Highly Efficient Printed Quantum Dot Light-emitting Diodes through Ultrahigh-definition Double-layer Transfer Printing", 유지수. (2024-10-01). Highly Efficient Printed Quantum Dot Light-emitting Diodes through Ultrahigh-definition Double-layer Transfer Printing. 2024년도 한국고분자학회 추계 정기총회 및 학술대회, 128–128.
연구 뉴스
- DGIST Unveils the Secret of Water-Induced Degradation in Perovskite! Expected to Accelerate the Commercialization of Next-Generation Optoelectronic Materials 2025-04-16
- DGIST, 페로브스카이트의 물에 의한 열화 비밀을 밝히다! 차세대 광전자 소재의 상용화 앞당길 것으로 기대 2025-04-04
- 반도체 나노결정의 도핑, 씨앗 단계에서 미래를 설계하는 차세대 반도체 나노소재 합성법 개발! 2025-01-06
- Successfully Developed a Method for Doping Semiconductor Nanocrystals, Synthesizing Next-Generation Semiconductor Nanomaterials from the Seed Phase to the Future! 2025-01-06
- Developing innovative new display technologies! Create ultrahigh-definition screens efficiently! 2024-08-26
연구분야
미래유망 신기술(6T)
국가과학기술표준분류