His main research concerns Optoelectronics, Polymer, Polymer solar cell, Field-effect transistor and Energy conversion efficiency. His research integrates issues of Layer, Transistor, Organic field-effect transistor and Titanium in his study of Optoelectronics. His study in the field of Polymer-fullerene bulk heterojunction solar cells also crosses realms of Global illumination.
Shinuk Cho has researched Polymer solar cell in several fields, including Open-circuit voltage, Electron mobility, Photocurrent, Transmission electron microscopy and Organic solar cell. His studies in Organic solar cell integrate themes in fields like Acceptor, Thin layers and Atomic layer deposition. The study incorporates disciplines such as Electrical resistance and conductance, Field effect and Dip-coating in addition to Field-effect transistor.
Shinuk Cho mainly focuses on Polymer solar cell, Optoelectronics, Polymer, Chemical engineering and Polymer chemistry. His study with Polymer solar cell involves better knowledge in Energy conversion efficiency. His Optoelectronics research is multidisciplinary, relying on both Field-effect transistor, Transistor, Layer, Electrode and Organic solar cell.
His study of Conjugated system is a part of Polymer. His work in Chemical engineering addresses issues such as Fullerene, which are connected to fields such as Heterojunction. His Polymer chemistry study also includes fields such as
Shinuk Cho focuses on Organic solar cell, Optoelectronics, Energy conversion efficiency, Polymer solar cell and Chemical engineering. His Optoelectronics research includes elements of Layer and Light intensity. Shinuk Cho combines subjects such as Wetting, Oxide, Passivation, Perovskite and Conductivity with his study of Energy conversion efficiency.
His study in Polymer solar cell is interdisciplinary in nature, drawing from both PEDOT:PSS, Fullerene, Acceptor and Doping. His Chemical engineering study combines topics in areas such as Active layer, Polymer and Surface conductivity. The various areas that Shinuk Cho examines in his Polymer study include Electron mobility and Group.
His primary areas of study are Chemical engineering, Organic solar cell, Energy conversion efficiency, Optoelectronics and PEDOT:PSS. His work deals with themes such as Sheet resistance, Poly and Active layer, which intersect with Chemical engineering. His Organic solar cell study introduces a deeper knowledge of Polymer.
His Energy conversion efficiency research integrates issues from Solution process, Perovskite, Passivation and Thiophene. His Optoelectronics research includes themes of Layer and Zinc. His PEDOT:PSS research is multidisciplinary, incorporating perspectives in Surface modification, Solar cell, Polymer solar cell, Photoactive layer and Monomer.
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Bulk heterojunction solar cells with internal quantum efficiency approaching 100
Sung Heum Park;Sung Heum Park;Anshuman Roy;Serge Beaupré;Shinuk Cho;Shinuk Cho.
Nature Photonics (2009)
Metallic transport in polyaniline
Kwanghee Lee;Kwanghee Lee;Shinuk Cho;Sung Heum Park;A. J. Heeger.
Air‐Stable Polymer Electronic Devices
Kwanghee Lee;Kwanghee Lee;Jin Young Kim;Sung Heum Park;Sun Hee Kim.
Advanced Materials (2007)
Effect of processing additive on the nanomorphology of a bulk heterojunction material.
Ji Sun Moon;Christopher J. Takacs;Shinuk Cho;Robert C. Coffin.
Nano Letters (2010)
Functionalized methanofullerenes used as n-type materials in bulk-heterojunction polymer solar cells and in field-effect transistors.
Changduk Yang;Jin Young Kim;Shinuk Cho;Jae Kwan Lee.
Journal of the American Chemical Society (2008)
Transient photoconductivity in polymer bulk heterojunction solar cells: Competition between sweep-out and recombination
Sarah R. Cowan;R. A. Street;Shinuk Cho;A. J. Heeger.
Physical Review B (2011)
Thermal annealing-induced enhancement of the field-effect mobility of regioregular poly(3-hexylthiophene) films
Shinuk Cho;Kwanghee Lee;Jonathan Yuen;Guangming Wang.
Journal of Applied Physics (2006)
“Columnlike” Structure of the Cross-Sectional Morphology of Bulk Heterojunction Materials
Ji Sun Moon;Jae Kwan Lee;Shinuk Cho;Jiyun Byun.
Nano Letters (2009)
Relationship between the microscopic morphology and the charge transport properties in poly(3-hexylthiophene) field-effect transistors
M. Surin;Ph. Leclère;R. Lazzaroni;J. D. Yuen.
Journal of Applied Physics (2006)
High-performance planar perovskite optoelectronic devices: A morphological and interfacial control by polar solvent treatment
Jae Choul Yu;Da Bin Kim;Gyoelim Baek;Bo Ram Lee.
Advanced Materials (2015)
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