2006.3-2011.2 | 이화여자대학교 화학과, 이학사 |
2016.3-2016.5 | 이화여자대학교 화학·나노과학과 박사후연구원 |
-유기소재와 분자인식 연구 (Organic Materials and Molecular Recognition)
-공액고분자 센서소재 연구 (Conjugated Polymer Sensors)
-바이오센서 소재의 합성과 응용 (Synthesis and Application of Biosensors for Diagnostics)
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(27) X. Li†*, S. Lee†, J. Yoon*, “Supramolecular photosensitizers rejuvenate photodynamic therapy” Chem. Soc. Rev. 2018, DOI: 10.1039/c7cs00594f.
(26) W. Lee, D. Lee, J. -Y. Kim, S. Lee*, J. Yoon*, “Imidazole and triazole head group-containing polydiacetylenes for colorimetric monitoring of pH and detecting HCl gas”, Mater. Chem. Front., 2018, 2, 291-295.
(25) J. Li, N. Kwon, Y. Jeong, S. Lee, G. Kim, J. Yoon*, “Aggregation-Induced Fluorescence Probe for Monitoring Membrane Potential Changes in Mitochondria”, ACS Appl. Mater. Interfaces, 2017, DOI: 10.1021/acsami.7b14548.
(24) X. Chen, C. S. Lim, D. Lee, S. Lee, S. J. Park, H. M. Kim*, J. Yoon*, “Two-photon fluorescence sensors for imaging NMDA receptors monitoring release of Zn2+ from the presynaptic terminal” Biosens. Bioelectron. 2017, 91, 770-779.
(23) X. Chen, D. Lee, S. Yu, G. Kim, S. Lee, Y. Cho, H. Jeong, K. T. Nam*, J. Yoon*, “In vivo Near-Infrared Imaging Phototherapy of Tumors Using a Cathepsin B-Activated Fluorescent Probe” Biomaterials, 2017, 122, 130-140.
(22) Y. Yue, F. Huo, S. Lee, C. Yin*, J. Yoon*, “A review: the trend of progress about pH probes in cell application in recent years” Analyst, 2017, 142(1), 30-41.
(21) Y. Hu, L. Chen, H. Jung, Y. Zeng, S. Lee, K. M. K. Swamy, X. Zhou*, M. H. Kim*, J. Yoon, “Effective Strategy for Colorimetric and Fluorescence Sensing of Phosgene Based on Small Organic Dyes and Nanofiber Platforms” ACS Appl. Mater. Interfaces 2016, 8(34), 22246-22252.
(20) Y. Liu, Y. Hu, S. Lee, D. Lee, J. Yoon*, “Fluorescent and Colorimetric Chemosensors for Anions, Metal Ions, Reactive Oxygen Species, Biothiols, and Gases” Bull. Korean Chem. Soc, 2016, 37, 1661-1678.
(19) S. Kim, S. Lee, T. F. Anjong, H. Y. Jang, J. -Y. Kim, C. Lee, S. Park, H. J. Lee*, J. Yoon*, J. Kim*, “Artificial Photocatalytic System Using Polydiacetylene-(-NH-phen)Ru(bpy)2 for Cofactor Regeneration CO2 Reduction” J. Phys. Chem. C., 2016, 120(50), 28407-28414.
(18) J. F. Joung, J. Back, Y. Kim, S. Lee, M. H. Kim, J. Yoon*, S. Park*, “Electronic relaxation dynamics of PCDA-PDA studied by transient absorption spectroscopy” Phys. Chem. Chem. Phys., 2016, 18, 23096-23104
(17) S. Lee, J. -Y. Kim, X. Chen*, J. Yoon*, “Recent progress in stimuli-induced polydiacetylenes for sensing temperature, chemical biological targets” Chem. Commun. 2016, 52(59), 9178-9196.
(16) L. Cui, Y. Baek, S. Lee, N. Kwon, J. Yoon*, “AIE ESIPT Based Kinetic Resolved Fluorescent Probe for Biothiols” J. Mater. Chem. C 2016, 4(14), 2909-2914.
(15) S. Lee, H. Cheng, M. Chi, Q. Xu, X. Chen, C. -Y. Eom, T. D. James, S. Park, J. Yoon*, “Sensing Antibacterial Activity of Imidazolium-based Conjugated Polydiacetylenes” Biosens. Bioelectron. 2016, 77, 1016-1019.
(14) J. Baek†, J. F. Joung†, S. Lee†, H. Rhee, M. H. Kim, S. Park*, J. Yoon*, "Origin of the Reversible Thermochromic Properties of Polydiacetylenes Revealed by Ultrafast Spectroscopy" J. Phys. Chem. Lett. 2016, 7, 259-265.
(13) Y. Yue, F. Huo, S. Lee, C. Yin*, J. Yoon*, J. Chao, Y. Zhang, F. Cheng*, "A Dual Colorimetric/Fluorescence System for Determining pH Based on the Nucleophilic Addition Reaction of an o-Hydroxymerocyanine Dye" Chem. Eur. J. 2016, 22, 1239-1243.
(12) X. Zhang†, H. -A. Choi†, S. Lee†, J. Yin, S. H. Kim, C. Lee*, J. Yoon*, “A Cholesteryl Thiazolothiazole Derivative for Colorimetric Sensing of Cu2+ Its Sol-Gel Transition” Dyes Pigm. 2015, 122, 109-115.
(11) X. Zhou, S. Lee, Z. Xu*, J. Yoon*, “Recent Progress on the Development of Chemosensors for Gases” Chem. Rev. 2015, 115(15), 7944-8000.
(10) S. Lee, Karen K. Y. Yuen, Katrina A. Jolliffe*, Juyoung Yoon*, “Fluorescent Colorimetric Chemosensors for Pyrophosphate” Chem. Soc. Rev. 2015, 44(7), 1749-1762. Back Cover
(9) S. Lee, Y. Cho, B. U. Ye, J. M. Baik, M. H. Kim*, J. Yoon*, “Unprecedented colorimetric responses of polydiacetylenes driven by plasma induced polymerization their patterning applications” Chem. Commun. 2014, 50(83), 12447-12449. Cover
(8) H. Y. Lee, Y. P. Choi, S. K. Kim, T. Yoon, Z. Guo, S. Lee, K. M. K. Swamy, G. Kim, J. Y. Lee*, I. Shin*, J. Yoon*, “Selective Homocysteine Turn-on Fluorescent Probes Their Bioimaging Applications” Chem. Commun. 2014, 50(53), 6967-6969. Cover
(8) H. Y. Lee, Y. P. Choi, S. K. Kim, T. Yoon, Z. Guo, S. Lee, K. M. K. Swamy, G. Kim, J. Y. Lee*, I. Shin*, J. Yoon*, “Selective Homocysteine Turn-on Fluorescent Probes Their Bioimaging Applications” Chem. Commun. 2014, 50(53), 6967-6969. Cover
(7) S. Lee, J. Lee, M. Lee, Y. K. Cho, J. Baek, J. Kim, S. Park, M. H. Kim, R. Chang*, J. Yoon*, “Construction Molecular Understing of an Unprecedented, Reversibly Thermochromic Bis-polydiacetylene” Adv. Funct. Mater. 2014, 24(24), 3699-3705. Back Cover
(6) X. Zhang, S. Lee, Y. Liu, M. Lee, J. Yin, J. L. Sessler*, J. Yoon*, “Anion-activated, thermoreversible gelation system for the capture, release, visual monitoring of CO2” Sci. Rep. 2014, 4, 4593.
(5) Q. Xu†, S. Lee†, Y. Cho, M. H. Kim, J. Bouffard*, J. Yoon*, “Polydiacetylene-Based Colorimetric Fluorescent Chemosensor for the Detection of Carbon Dioxide" J. Am. Chem. Soc. 2013, 135(47), 17751-17754.
(4) Q. Xu, K. A. Lee, S. Lee, K. M. Lee, W. -J. Lee*, J. Yoon*, “A Highly Specific Fluorescent Probe for Hypochlorous Acid its Application in Imaging Microbe-induced HOCl Production” J. Am. Chem. Soc. 2013, 135(26), 9944-9949
(3) S. Lee, K. M. Lee, M. Lee, J. Yoon*, “Polydiacetylenes Bearing Boronic Acid Groups as Colorimetric Fluorescence Sensor for Cationic Surfactants” ACS Appl. Mater. Interfaces 2013, 5(11), 4521-4526.
(2) S. Lee, J. Lee, H. N. Kim, M. H. Kim*, J. Yoon*, “Thermally Reversible Polydicetylenes Derived from Ethylene Oxide-Containing Bisdiacetylenes” Sensor & Actuator B: Chemical. 2012, 173, 419-425.
(1) H. Jeon, S. Lee, Y. Li, S. Park, J. Yoon*, “Conjugated Polydiacetylenes Bearing Quaternary Ammonium Groups as a Dual Colorimetric Fluorescent Sensor for ATP” J. Mater. Chem. 2012, 22(9), 3795-3799.
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