Seoul National Univ. DMSE
People
Faculty
Park, Soo Young
박수영
parksy@snu.ac.kr
Mailstop
33-204
Phone
880-8327
Fax
885-1748
Education
- 2006
- 2002
- 2000
Career
- 2006 ~ 2009
- 2009 ~ 2015
Korea Institute of Science and Technology (KIST)
High Temperature Energy Materials Research Center Senior Research Scientist
- 2015 ~ 2018
Korea Institute of Science and Technology (KIST)
High Temperature Energy Materials Research Center Principal Research Scientist
- 2018 ~ present
Associate Professor, Seoul National University
Research Interests
1. High Strength / High Temperature Alloys
2. Nano Mechanics and Nano Structure Design for Ultra Strong Materials
3. Shape and Pattern Design for Engineering Materials
4. Flexible and Stretchable Devices
5. Algorithmic Kirigami for Structure Design
Selected Publications
Yu-Ki Lee, Zhonghua Xi, Young-Joo Lee, Yun-Hyeong Kim, Yue Hao, Hongjin Choi, Myoung-Gyu Lee, Young-Chang Joo, Changsoon Kim, Jyh-Ming Lien*, In-Suk Choi*, “Computational kirigami wrapping: a universal method to wrap 3D-curved surfaces forconformal devices for conformal devices with non-stretchable materials beyond materiality “, Science Advances (2020), 6(5), eaax6212
So-Yeon Lee, Kyung Roul Park, Sung-gyu Kang, Ji-Hoon Lee, Eun-chae Jeon, Cheol-Hwee Shim, Jae Pyong Ahn, Dong-Ik Kim, Heung Nam Han, Young-Chang Joo*, Changsoon Kim*, and In-Suk Choi*, “Selective crack suppression during deformation in metalfilms on polymer substrates using electron beam irradiation”, Nature Communications (2019), 10, 4454
Kee-Bum Kim, Young-Joo Lee, Avelino Costa, Yu-Ki Lee, Tae-Sik Jang, Myoung-Gyu Lee, Young-Chang Joo, Kyu Hwan Oh, Juha Song*, and In-Suk Choi*,”Extremely Versatile Deformability beyond Materiality: A New Material Platform through Simple Cuttingfor Rugged Batteries”, Advanced Engineering Materials (2019), 1900206
Srinivasan Swaminathan, Sung-Min Hong, Manoj Kumar, Woo-Sang Jung, Dong-Ik Kim, Harpreet Singh*, and In-Suk Choi*,”Microstructural evolution and high temperature oxidation characteristics of cold sprayed Ni-20Cr nanostructured alloy coating”,Surface and Coatings Technology (2019), 362, pp.333-344.
S.G. Kang, D.Y. Moon, J. H. Jang, J.Y. Kim, J.Y. Suh, E.J. Yoon, H.N. Han*, I.S. Choi*, “Flaw-containing Alumina hollow nanostructures have ultrahigh fracture strength to be incorporated into high-efficiency GaN LEDs”, Nano Letters (2018),vol 18, p 1323–1330
Seoul National Univ. DMSE
People
Faculty
Park, Soo Young
박수영
parksy@snu.ac.kr
Mailstop
33-204
Phone
880-8327
Fax
885-1748
Homepage
http://csom.snu.ac.kr
Education
- 1988
Ph.D : Seoul National University, Department of Textile Engineering
- 1982
M.S : Seoul National University, Department of Textile Engineering
- 1980
B.S : Seoul National University, Department of Textile Engineering
Career
- 2009-Current
Editor, Macromolecular Research, The Polymer Society of Korea
- 1995-present
Professor, Department of Materials Science and Engineering,Seoul National University
- 1992-1993
Researcher, Lab. of NanophotonicsMaterials, Frontier Research Program, RIKEN Institute, Japan
- 1985-1995
Researcher/Senior Researcher,Polymer Division, KIST, Korea
Research Interests
Supramolecular Optoelectronics: “Beyond the Molecule!”1. Organic Fluorescence/Phosphorescencematerials for OLEDs* Design and synthesis of novel organic fluorescence materials for OLED applications
* Design and synthesis of phosphorescence transition metal complexes and polymers for OLEDs2. Organic Semiconductors* Design and synthesis of organic semiconducting materials for thin-film transistors (p-type and n-type)
* Novel organic/inorganic hybrid materials and low bandgap polymers for organic solar cells
* Novel semiconducting charge-transport/injection materials for OLEDs
* Functional molecular materials for organic non-volatile memories3. Sensors* Highly sensitive molecular sensors for light, acidity, humidity, pressure,organic vapors,etc.
* Novel molecular fluorescent/phosphorescent chemosensorsforions, protons, and biomolecules.4. Functional organic materials for optical memory* Design and synthesis of organic photochromic materials for optical memories
* High performance recording materials with novel structures for next generation optical media (eg.,DVD)5. New conceptual and pioneering supramolecularoptoelectronic materials* Aggregation Induced Enhanced Emission (AIEE) materials
* AIEE-active semiconducting/conducting nanostructured materials
* Excited State Intramolecular Proton Transfer (ESIPT) materials
* Multi-stimuli (light, heat, pressure, etc.) luminescence switch materials
* Molecular pixels
Selected Publications
Papers* “π-Conjugated Cyanostilbene Derivatives: A Unique Self-Assembly Motif for Molecular Nanostructures with
Enhanced Emission and Transport”, Accounts Chem. Res., 45, 544 (2012)
* “Advanced Organic Optoelectronic Materials: Harnessing Excited-State Intramolecular Proton Transfer (ESIPT)
Process”, Adv. Mater., 23, 3615 (2011) (Invited Review Article)
* “Organic Light-Emitting Diodes with White-Emitting Molecule: Emission Mechanism and Device
Characteristics”, Adv. Funct. Mater., 21, 644 (2011) (Highlighted as Cover Article)
* “Multistimuli Two-Color Luminescence Switching via Different Slip-Stacking of Highly Fluorescent Molecular
Sheets , J. Am. Chem. Soc., 132, 13675 (2010) (Highlighted in JACS Select Issue#11, KCS News Weekly, 1(46))
* “All-Organic Coaxial Nanocables with Interfacial Charge-Transfer Layers: Electrical Conductivity and Light-
Emitting-Transistor Behavior”, J. Mater. Chem., 20, 1062 (2010) (Highlighted as Cover Article)
* “A White-Light-Emitting Molecule: Frustrated Energy Transfer Between Constituent Emitting Centers”, J. Am.
Chem. Soc., 131, 14043 (2009) (Highlighted as Cover Article and also in NPG Nature Asia Materials, Science
Daily, New Scientist, DongaIlbo)
* “Enhanced Emission and Its Switching in Fluorescent Organic Nanoparticles”, J. Am. Chem. Soc., 124, 14410
(2002). (# cited 460times as of October 2011)
[Total of 171 publications in international SCI journals and 27 patents]