사진

Jang, Sung-Yeon (장성연)

Department
에너지화학공학과
Website
http://syjang.unist.ac.kr/
Lab
Renewable Energy and Nanoelectronics Lab. (에너지 및 나노전자 소재/소자 실험실)
Research Keywords
태양전지, 페로브스카이트, 퀀텀닷 태양전지, 유기태양전지, 유기열전소재, 분자전자소재, Colloidal quantum dot solar cell, Organic solar cell, Perovskite solar cell, Thermoelectrics, Molecular electronics
Research Interests
 Our group is intensively working in novel energy and electronic materials for high-performance power conversion devices
- Colloidal Quantum Dot Solar Cell- Organic Solar Cell- Perovskite Solar Cell- Thermoelectric - Molecular Electronics
This table browses all dspace content
Issue DateTitleAuthor(s)TypeViewAltmetrics
2008-02Probing the chemistry of molecular heterojunctions using thermoelectricityBaheti, Kanhayalal; Malen, Jonathan A.; Doak, Peter, et alARTICLE118 Probing the chemistry of molecular heterojunctions using thermoelectricity
2007-03Thermoelectricity in molecular junctionsReddy, Pramod; Jang, Sung-Yeon; Segalman, Rachel A., et alARTICLE111 Thermoelectricity in molecular junctions
2006-10Interpretation of Stochastic events in single molecule conductance measurementsJang, Sung-Yeon; Reddy, Pramod; Majumdar, Arun, et alARTICLE114 Interpretation of Stochastic events in single molecule conductance measurements
2006-06Higher order liquid crystalline structure in low-polydispersity DEH-PPVOlsen, Bradley D.; Jang, Sung-Yeon; Luening, Jan M., et alARTICLE113 Higher order liquid crystalline structure in low-polydispersity DEH-PPV
2005-09Writing of conducting polymers using nanoelectrochemistryJang, SY; Marquez, M; Sotzing, GAARTICLE114 Writing of conducting polymers using nanoelectrochemistry
2005-09Welded electrochromic conductive polymer nanofibers by electrostatic spinningJang, SY; Seshadri, V; Khil, MS, et alARTICLE124 Welded electrochromic conductive polymer nanofibers by electrostatic spinning
2004-08Rapid direct nanowriting of conductive polymer via electrochemical oxidative nanolithographyJang, SY; Marquez, M; Sotzing, GAARTICLE81 Rapid direct nanowriting of conductive polymer via electrochemical oxidative nanolithography
2004-06Poly(thiophene)s prepared via electrochemical solid-state oxidative cross-linking. A comparative studyJang, Sung-Yeon; Sotzing, Gregory A.; Marquez, ManuelARTICLE102 Poly(thiophene)s prepared via electrochemical solid-state oxidative cross-linking. A comparative study
2002-09Intrinsically conducting polymer networks of poly(thiophene) via solid-state oxidative cross-linking of a poly(norbornylene) containing terthiophene moietiesJang, Sung-Yeon; Sotzing, Gregory A.; Marquez, ManuelARTICLE107 Intrinsically conducting polymer networks of poly(thiophene) via solid-state oxidative cross-linking of a poly(norbornylene) containing terthiophene moieties
2001-02Physical properties of garnet-filled polyurethane foam compositeJang, SY; Kim, DJ; Seo, KHARTICLE102 Physical properties of garnet-filled polyurethane foam composite

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