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Research
Prof. Cheolmin Park seeks to utilize the molecular self-assembly principles found in Nature to create and control new nanometer scale soft and hybrid materials for innovative electrical devices based on emerging nanotechnology. The research interest covers from molecular design, assembly to nanopatterns and devices including self-organizing polymer systems and nanostructures, with particular emphasis on functional block copolymers, supra-molecular assembled materials and hybrid assembly of carbon nanomaterials with polymers; solution-processed non-lithographic printing technologies such as nanoimprinting, ink-jet and transfer printing combined with surface engineering; various organic and polymeric devices such as ultrahigh density ferroelectric polymer memories, organic field effect transistors, solar cells and novel electroluminescent devices with networked carbon nanomaterials. The goal is to contribute to the understanding of process-structure-property relationships and to create technologically useful materials and devices.
Prof. Cheolmin Park seeks to utilize the molecular self-assembly principles found in Nature to create and control new nanometer scale soft and hybrid materials for innovative electrical devices based on emerging nanotechnology. The research interest covers from molecular design, assembly to nanopatterns and devices including self-organizing polymer systems and nanostructures, with particular emphasis on functional block copolymers, supra-molecular assembled materials and hybrid assembly of carbon nanomaterials with polymers; solution-processed non-lithographic printing technologies such as nanoimprinting, ink-jet and transfer printing combined with surface engineering; various organic and polymeric devices such as ultrahigh density ferroelectric polymer memories, organic field effect transistors, solar cells and novel electroluminescent devices with networked carbon nanomaterials. The goal is to contribute to the understanding of process-structure-property relationships and to create technologically useful materials and devices.
研究兴趣
论文共 428 篇作者统计合作学者相似作者
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Tae Soo Kim,Gichang Noh, Seongdae Kwon, Ji Yoon Kim,Krishna P. Dhakal,Saeyoung Oh,Hyun-Jun Chai,Eunpyo Park,In Soo Kim,Eunji Lee,Youngbum Kim,Jaehyun Lee,Min-kyung Jo,Minsoo Kang,Cheolmin Park, Jeongho Kim,Jeongwon Park,Suhyun Kim, Mingyu Kim, Yuseok Kim,Sung-Yool Choi,Seungwoo Song,Hu Young Jeong,Jeongyong Kim,Joon Young Kwak,Kibum Kang
Advanced materialsno. 14 (2024)
ADVANCED FUNCTIONAL MATERIALS (2024)
POLYMER REVIEWSno. 2 (2024): 407-448
Jihong Bae, Jongbum Won, Taeyoung Kim,Sangjin Choi, Hyesoo Kim, Seung-Hyun Victor Oh,Giyeok Lee, Eunsil Lee, Sijin Jeon, Minjung Kim,Hyung Wan Do, Dongchul Seo,Sungsoon Kim,Youngjun Cho, Hyeonsoo Kang, Bokyeong Kim,Hong Choi, Jihoon Han,Taehoon Kim, Narguess Nemati, Chanho Park,Kyuho Lee,Hongjae Moon,Jeongmin Kim, Hyunggeun Lee,Daniel W. Davies,Dohyun Kim,Seunghun Kang, Byung-Kyu Yu, Jaegyeom Kim, Min Kyung Cho,Jee-Hwan Bae,Soohyung Park,Jungkil Kim,Ha-Jun Sung,Myung-Chul Jung,In Chung, Heonjin Choi,Hyunyong Choi,Dohun Kim,Hionsuck Baik,Jae-Hyun Lee,Heejun Yang,Yunseok Kim,Hong-Gyu Park,Wooyoung Lee,Kee Joo Chang,Miso Kim,Dong Won Chun,Myung Joon Han,Aron Walsh,Aloysius Soon,Jinwoo Cheon,Cheolmin Park,Jong-Young Kim,Wooyoung Shim
NATURE MATERIALS (2024)
GIANT (2024): 100208-100208
Energy & Environmental Scienceno. 1 (2024): 134-148
Mingu Kang,Woonggi Hong, Inseong Lee, Seohak Park,Cheolmin Park,Sanggeun Bae, Hyeongjin Lim,Sung-Yool Choi
ACS APPLIED MATERIALS & INTERFACESno. 33 (2024): 43849-43859
Nano Energy (2024): 110083
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作者统计
#Papers: 428
#Citation: 16201
H-Index: 61
G-Index: 114
Sociability: 7
Diversity: 0
Activity: 4
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