.png)
2024
[80] Development of a Chemical Sensor Device for Monitor Hazardous Gases Generated in the Semiconductor Manufacturing Process
by M. T. N. Nguyen, J. S. Lee* Chemosensors 12(11), 233 (2024) [LINK]
[79] Synthesis of a copolymer with a dynamic disulfide network and its application to a lithium-ion capacitor polymer electrolyte
by T. D. Nguyen, S. J. Roh, M. T. N. Nguyen, Y. J. Nam, D. J. Kim, B. K. Lim, Y. S. Yoon, J. S. Lee* Chem. Eng. J. 497, 1 (2024) [LINK]
[78] Dynamic Covalent Bond-Based Polymer Chains Operating Reversibly with Temperature Changes
by S. J. Roh, Y. J. Nam, M. T. N. Nguyen, J. H. Han, J. S. Lee* Molecules 29(14), 3261 (2024) [LINK]
by M. T. N. Nguyen, T. D. Nguyen, J. H. Han, J. S. Lee* Small methods 2400163 (2024) [LINK]
by T. T. T. Phan, I. S. Hwang, M. T. N. Nguyen, T. D. Nguyen, J. W. Lee*, J. S. Lee* J. Mater. Sci 59, 2483-2496 (2024) [LINK]
[75] Applications of Nanomaterials in RFID Wireless Sensor Components
by S. J. Roh, T. D. Nguyen, J. S. Lee* Appl. Sci 14(3), 1216 (2024) [LINK]
2023
[74] Structural Control of Nanofibers According to Electrospinning Process Conditions and Their Applications
by T. D. Nguyen, S. J. Roh, M. T. N. Nguyen, J. S. Lee* Micromachines 14(11), 2022 (2023) [LINK]
[73] Fabrication of Activated Multiporous Carbon Nanofibers Using Vacuum Plasma for High-Capacitiy Energy Storage
by Y. J. Nam, M. T. N. Nguyen, T. V. Tran, J. S. Lee* Appl. Sci. 13(19), 10840 (2023) [LINK]
[72] Dynamic Covalent Bond Network Based Carbon Nanocomposite for Self-Healing Tactile Sensor
by T. D. Nguyen, T. T. T. Phan, Y. J. Nam, J. S. Lee* ACS Appl. Electron. Mater. 5(8), 4417-4425 (2023) [LINK]
[71] Enhanced electro–optic performance of transparent conductive electrodes through polycrystalline La-doped BaSnO3 and Ag nanowire interaction
by J-H. Jo, S. H. Kim, H. E. Kang, J. S. Lee*, Y. S. Yoon* Mater. Sci. Semicond. Process 165, 107697 (2023) [LINK]
[70] Facile synthesis of nickel-decorated multidimensional carbon nanofibers via oxygen plasma activation for non-enzymatic acetaminophen sensing
by T. T. T. Phan, T. D. Nguyen, M. T. N. Nguyen, J. S. Lee* Carbon 212, 118176 (2023) [LINK]
[69] Conductive Three-Dimensional Lamella Network for Improved Sound Absorption and Heat Transfer
by T. T. T. Phan, S. J. Roh, J. S. Lee* ACS Appl. Polym. Mater. 5(4), 2852-2858 (2023) [LINK]
[68] PEODT:PSS-based three-dimensional lamella network for high-performance sound absorption and heat transfer
by S. J. Roh, T. T. T. Phan, J. S. Lee* J. Mater. Sci 58, 6972-6982 (2023) [LINK]
[67] Carbon-Based Materials and Their Applications in Sensing by Electrochemical Voltammetry
by T. D. Nguyen, M. T. N. Nguyen, J. S. Lee* Inorganics 11(2), 81 (2023) [LINK]
[66] Fabrication and Characterization of Self-Healable Polydisulfide Network-Based Composites
by T. D. Nguyen, T. T. T. Phan, J. S. Lee* ACS Appl. Polym. Mater. 5(1), 485-493 (2023) [LINK]
[65] Synthesis of Poly(3,4-ethylenedioxythuophene) Derivatives Using Three-Armed Conjugated Cross-Linker and Its Thermoelectric Properties
by J. S. Lee, S. N. Patel* J. Ind. Eng. Chem. 117, 196-204 (2023) [LINK]
2022
[64] Vacuum plasma treatment on carbon nanoparticles for highly sensitive square wave voltammetric sensor of heavy metal ions
by T. T. T. Phan, T. D. Nguyen, J. S. Lee* Synthe. Met. 291 117203 (2022) [LINK]
[63] Optimization of the Thermoelectric Properties of 2D-PEDOT Derivative Chains Using Electrochemical Control
by J. S. Lee, S. N. Patel* ACS Appl. Polym. Mater. 4(10), 6978-6984 (2022) [LINK]
[62] Iron oxide-immobilized porous carbon nanofiber-based radio frequency
identification (RFID) tag sensor for detecting hydrogen sulfide
by S. G. Kim, T. V. Tran, J. S. Lee* J. Ind. Eng. Chem. 112, 423-429 (2022) [LINK]
[61] Electrospinning-Based Carbon Nanofibers for Energy and Sensor Applications
by T. D. Nguyen, J. S. Lee* Appl. Sci. 12(12), 6048 (2022) [LINK]
[60] Recent Development of Flexible Tactile Sensors and Their Applications
by T. D. Nguyen, J. S. Lee* Sensors 22(1) 50, (2022) [LINK]
2021
[59] Ruthenium Nanoparticle-Immobilized Porous Carbon Nanofibers for Nonenzymatic Dopamine Sensing
by S. G. Kim, J. S. Lee* ACS Appl. Nano Mater. 4(12), 13683–13691 (2021) [LINK]
[58] Multiscale pore contained carbon nanofiber-based field-effect-transistor biosensor for nesfatin-1 detection
by S. G. Kim, J. S. Lee* J. Mater. Chem. B 9(30), 6076-6083 (2021) [LINK]
[57] Comparative Studies on Crystallinity, Thermal, and Mechanical Properties of Polyketone grown on Plasma Treated CVD Graphene
by S. Cho*, J. S. Lee*, H. Jang, S. Park, J. H. An, J. Jang Polymers 13(6) 919 (2021) [LINK]
[56] Freestanding and Flexible β-MnO2@Carbon Sheet for Application as a Highly Sensitive Dimethyl Methylphosphonate Sensor
by W. Kim, J. S. Lee* ACS Omega 6(7), 4988-4994 [LINK]
2020
[55] Recent development of morphology controlled conducting polymer nanomaterial-based biosensor
by S. Cho, J. S. Lee* Appl. Sci.-Basel 10(17) 5889 (2020) (Feature article) [LINK]
[54] Ruthenium Decorated Polypyrrole Nanoparticles for Highly Sensitive Hydrogen Gas Sensor Using Component Ratio and Protonation Control
by J. Oh, J. S. Lee*, J. Jang* Polymers 12(6) 1427 (2020) [LINK]
[53] Aptamer-Functionalized Three-Dimensional Carbon Nanowebs for Ultrasensitive and Free-Standing PDGF Biosensor
by W. Kim, J. S. Lee*, J. Jang* ACS Appl. Mater. Interfaces 12(18) 20882-20890 (2020) [LINK]
[52] Facile synthesis of Co3O4 incorporated multichannel carbon nanofibers for electrochemical applications
by S. G. Kim, J. Jun, Y. K. Kim, J. Kim, J. S. Lee*, J. Jang* ACS Appl. Mater. Interfaces 12(18) 20613-20622 (2020) [LINK]
[51] Comparative Study on the Effect of Protonation Control for Resistive Gas Sensor Based on Close-Packed Polypyrrole Nanoparticles
by W. Kim, S. Cho*, J. S. Lee* Appl. Sci.-Basel 10(5) 1850 (2020) [LINK]
[50] Comparative Study on Formation and Oxidation-Level Control of Three-Dimensional Conductive Nanofilm for Gas-Sensor Applications
by K. H. Cho, J. Jang*, J. S. Lee* ACS Omega 5(6) 2992-2999 (2020) [LINK]
[49] Facile synthesis of palladium-decorated three-dimensional polypyrrole nanofilm for highly sensitive H2 gas sensor
by K. H. Cho, H. Yu, J. S. Lee*, J. Jang* J. Mater. Sci. 55(12) 5156-5165 (2020) [LINK]
2019
[48] Recent Developments of the Solution-Processable and Highly Conductive Polyaniline Composites for Optical and Electrochemical Applications
by S. Cho*, J. S. Lee*, H. Joo Polymers 11(12) 1965 (2019) [LINK]
[47] A highly sensitive wireless nitrogen dioxide gas sensor based on an organic conductive nanocomposite paste
by S. G. Kim‡, J. Jun‡, J. S. Lee*, J. Jang* J. Mater. Chem. A 7(14) 8451-8459 (2019) [LINK]
[46] Highly porous structured polyaniline nanocomposites for scalable and flexible high-performance supercapacitors
by J. Oh, Y. K. Kim, J. S. Lee*, J. Jang* Nanoscale 11(13) 6462-6470 (2019) [LINK]
[45] Comparative Studies on Two-Electrode Symmetric Supercapacitor based on Polypyrrole:Poly(4-styrenesulfonate) with different molecular weight of Poly(4-styrenesulfonate)
by H. Han, J. S. Lee, S. Cho* Polymers 11(2) 232 (2019) [LINK]
2018
[44] Facile synthesis of size-controlled Fe2O3 nanoparticle-decorated carbon nanotubes for highly sensitive H2S detection
by W. Kim, J. S. Lee*, J. Jang* RSC Advances 8(56) 31874-31880 (2018) [LINK]
[43] Multidimensional Conductive Nanofilm-Based Flexible Aptasensor for Ultrasensitive and Selective HBsAg Detection
by K. H. Cho, D. H. Shin, J. Oh, J. H. An, J. S. Lee*, J. Jang* ACS Appl. Mater. Interfaces 10(34) 28412-28419 (2018) [LINK]
[42] Highly Selective FET-type Glucose Sensor based on Shape controlled Palladium Nanoflower-decorated Graphene
by D. H. Shin‡, W. Kim‡, J. Jun, J. S. Lee, J. H. Kim, J. Jang* Sensor & Actuator B 264 216-223 (2018) [LINK]
[41] Platinum Nanoparticles Immobilized on Polypyrrole Nanofibers for Non-enzyme Oxalic Acid Sensor
by W. Kim, J. S. Lee, D. H. Shin, J. Jang* J. Mater. Chem. B 6(8) 1272-1278 (2018) [LINK]
2017
[40] Ultrasensitive and Selective Organic FET-type Non-enzymatic Dopamine Sensor Based on Platinum Nanoparticles Decorated Reduced Graphene Oxide
by J. Oh, J. S. Lee, S. G. Kim, J. Jun, J. Jang* ACS Appl. Mater. Interfaces 9(45), 39526−39533 (2017) [LINK]
[39] Fabrication of a One-dimensional Tube-in-tube Polypyrrole/Tin oxide Structure for Highly Sensitive DMMP Sensor Applications
by J. Jun, J. S. Lee, D. H. Shin, J. Oh, W. Kim, W. Na, J. Jang* J. Mater. Chem. A 5, (33) 17335-17340 (2017) [LINK]
[38] Sulfur-immobilized activated porous carbon nanotube composite-based cathode for lithium sulfur batteries
by J. S. Lee, J. Jun, J. Jang, A. Manthiram* Small 13(12), 1602984 (2017) [LINK]
[37] Sulfur-embedded activated multichannel carbon nanofiber composites for long-life and high-rate lithium sulfur batteries
by J. S. Lee, W. Kim, J. Jang, A. Manthiram* Adv. Energy Mater. 7(5), 1601943 (2017) [LINK]
[36] Hydroxylated N-doped carbon nanotube-sulfur composites as cathode materials for high performance lithium-sulfur batteries
by J. S. Lee, A. Manthiram* J. Power Sources 343, 54-59 (2017) [LINK]
[35] Electrospun three-layered polymer nanofiber-based porous carbon nanotubes for high-capacity energy storage
by J. S. Lee‡, J. Jun‡, S. Cho, W. Kim, J. Jang* RSC Adv. 7(1), 201-207 (2017) (‡ equal contribution) [LINK]
2016
[34] Wireless, Room Temperature Volatile Organic Compound Sensor Based on Polypyrrole Nanoparticle Immobilized Ultrahigh Frequency Identification Tag
by J. Jun‡, J. Oh‡, D. H. Shin, S. G. Kim, J. S. Lee, W. Kim, J. Jang* ACS Appl. Mater. Interfaces 8(48), 33139-33147 (2016) (‡ equal contribution) [LINK]
[33] Multidimensional hybrid conductive nanoplate-based aptasensor for platelet-derived growth factor detection
by J. S. Lee, W. Kim, S. Cho, J. Jun, K. H. Cho, J. Jang* J. Mater. Chem. B 4(25), 4447-4454 (2016) [LINK]
[32] Highly-ordered polypyrrole coated Co(OH)2 architectures for high-performance asymmetric supercapacitors
by J. S. Lee‡, D. H. Shin‡, W. Kim, J. Jang* J. Mater. Chem. A 4(17), 6603-6609 (2016) (‡ equal contribution) [LINK]
[31] Ultrasensitive bisphenol A FET sensor using aptamer-modified multichannel carbon nanofiber transducer
by S. G. Kim, J. S. Lee, J. Jun, D. H. Shin, J. Jang* ACS Appl. Mater. Interfaces 8(10), 6602-6610 (2016) [LINK]
2015
[30] Porous Palladium Coated Conducting Polymer Nanoparticles for Ultrasensitive Hydrogen Sensors
by J. S. Lee, S. G. Kim, S. Cho, J. Jang* Nanoscale 7(48), 20665-20673 (2015) [LINK]
[29] Multidimensional MnO2 nanohair-decorated hybrid multichannel carbon nanofiber as an electrode material for high-performance supercapacitors
by J. Jun‡, J. S. Lee‡, D. H. Shin, S. G. Kim, J. Jang* Nanoscale 7 (38), 16026-16033 (2015) (‡ equal contribution) [LINK]
[28] Polypropylene/Polyaniline Nanofiber/Reduced Graphene Oxide Nanocomposite with Enhanced Electrical, Dielectric, and Ferroelectric Properties for a High Energy Density Capacitor
by S. Cho, M. Kim, J. S. Lee, J. Jang* ACS Appl. Mater. Interfaces 7 (40), 22301-22314 (2015) [LINK]
[27] Polypyrrole-coated manganese dioxide with multiscale architectures for ultrahigh capacity energy storage
by J. S. Lee‡, D. H. Shin‡, J. Jang* Energy & Environmental Science 8 (10), 3030-3039 (2015) (‡ equal contribution) [LINK]
[26] Wireless hydrogen smart sensor based on Pt/graphene -immobilized radio-frequency identification tag
by J. S. Lee, J. Oh, J. Jun, J. Jang* ACS Nano 9 (8), 7783-7790 (2015) [LINK]
[25] Flower-like palladium nanoclusters decorated graphene electrodes for ultrasensitive and flexible hydrogen gas sensing
by D. H. Shin, J. S. Lee, J. Jun, J. H. An, S. G. Kim, K. H. Cho, J. Jang* Scientific Reports 5, 12294-12306 (2015) [LINK]
[24] Highly sensitive and selective field-effect-transistor nonenzyme dopamine sensors based on Pt/conducting polymer hybrid nanoparticles
by J. S. Lee, J. Oh, S. G. Kim, J. Jang* Small 11 (20), 2399-2406 (2015) [LINK]
[23] Poly(vinylidene fluoride)/NH2-treated graphene nanodot/reduced graphene oxide nanocomposites with enhanced dielectric performance for ultrahigh energy density capacitor
by S. Cho, J. S. Lee, J. Jang* ACS Appl. Mater. Interfaces 7 (18), 9668-9681 (2015) [LINK]
[22] Platinum-decorated carbon nanoparticle/polyaniline hybrid paste for flexible wideband dipole tag-antenna application
by J. S. Lee‡, M. Kim‡, J. Oh, J. Kim, S. Cho, J. Jun, J. Jang* J. Mater. Chem. A 3 (13) 7029-7035 (2015) (2015 Journal of Materials Chemistry A Hot Papers) (‡ equal contribution) [LINK]
[21] Platinum-decorated reduced graphene oxide/polyaniline:poly(4-styrenesulfonate) hybrid paste for flexible dipole tag-antenna application
by J. S. Lee, M. Kim, C. Lee, S. Cho, J. Oh, J. Jang* Nanoscale 7 (8), 3668-3674 (2015) [LINK]
[20] Detection of hazardous gas using multidimensional porous iron oxide nanorods-decorated carbon nanoparticles
by D. H. Shin, J. S. Lee, J. Jun, S. G. Kim, J. Jang* ACS Appl. Mater. Interfaces 7 (3), 1746-1751 (2015) [LINK]
2014
[19] Fabrication of water-dispersible and highly conductive PSS-doped PANI/graphene nanocomposites using a high-molecular weight PSS dopant and their application in H2S detection
by S. Cho, J. S. Lee, J. Jun, S. G. Kim, J. Jang* Nanoscale 6 (24), 15181-15195 (2014) [LINK]
[18] Aptamer-functionalized multidimensional conducting-polymer nanoparticles for an ultrasensitive and selective field-effect-transistor endocrine-disruptor sensors
by J. S. Lee, S. G. Kim, J. Jun, D. H. Shin, J. Jang* Adv. Funct. Mater. 24 (39), 6145-6153 (2014) [LINK]
[17] Aptamer-functionalized hybrid carbon nanofiber FET-type electrode for a highly sensitive and selective platelet-derived growth factor biosensor
by J. Jun, J. S. Lee, D. H. Shin, J. Jang* ACS Appl. Mater. Interfaces 6 (16), 13859-13865 (2014) [LINK]
[16] Three-dimensional scaffolds of carbonized polyacrylonitrile for bone tissue regeneration
by S. Ryu, C. Lee, J. Park, J. S. Lee, S. Kang, Y. D. Seo, J. Jang*, B-S. Kim* Angew. Chem. Int. Ed. 53 (35), 9213-9217 (2014) [LINK]
[15] A metal-oxide nanofiber-decorated three-dimensional graphene hybrid nanostructured flexible electrode for high-capacity electrochemical capacitors
by J. S. Lee, C. Lee, J. Jun, D. H. Shin, J. Jang* J. Mater. Chem. A 2 (30), 11922-11929 (2014) [LINK]
[14] Fe3O4/carbon hybrid nanoparticle electrodes for high-capacity electrochemical capacitors
by J. S. Lee, D. H. Shin, J. Jun, C. Lee, J. Jang* ChemSusChem 7 (6), 1676-1683 (2014) [LINK]
[13] Urchin-like polypyrrole nanoparticles for highly sensitive and selective chemiresistive sensor application
by J. S. Lee, J. Jun, D. H. Shin, J. Jang* Nanoscale 6 (8), 4188-4194 (2014) [LINK]
[12] Hetero-structured semiconductor nanomaterials for photocatalytic applications
by J. S. Lee, J. Jang “Hetero-structured semiconductor nanomaterials for photocatalytic applications” J. Ind. Eng. Chem. 20 (2), 363-371 (2014) (Review paper) [LINK]
[11] Fabrication of amorphous carbon-coated NiO nanofibers for electrochemical capacitor applications
by D. H. Shin, J. S. Lee, J. Jun, J. Jang* J. Mater. Chem. A 2 (10), 3364-3371 (2014) [LINK]
[10] High-sensitivity hydrogen gas sensors based on Pd-decorated nanoporous poly(aniline-co-aniline-2-sulfonic acid):poly(4-styrenesulfonic acid)
by S. Cho, J. S. Lee, J. Jun, J. Jang* J. Mater. Chem. A 2 (6), 1955-1966 (2014) [LINK]
2013
[9] Multidimensional polypyrrole/iron oxyhydroxide hybrid nanoparticles for
chemical nerve gas agent sensing application
by J. S. Lee, D. H. Shin, J. Jun, J. Jang* ACS Nano 7 (11), 10139-10147 (2013) [LINK]
[8] WO3 nanonodule-decorated hybrid carbon nanofibers for NO2 gas sensor application
by J. S. Lee, O. S. Kwon, D. H. Shin, J. Jang* J. Mater. Chem. A 1 (32), 9099-9106 (2013) [LINK]
[7] Fabrication of graphene sheets intercalated with manganese oxide/carbon nanofibers: Toward high-capacity energy storage
by O. S. Kwon, T. Kim, J. S. Lee, S. J. Park, H-W. Park, M. Kang, J. E. Lee, J. Jang* H. Yoon* Small 9 (2), 248-254 (2013) [LINK]
2012
[6] Facile synthesis of SnO2 nanofibers decorated with N-doped ZnO nanonodules for visible light photocatalysts using single-nozzle co-electrospinning
by J. S. Lee, O. S. Kwon, J. Jang* J. Mater. Chem. 22 (29), 14565-14572 (2012) [LINK]
[5] Ultrasensitive and selective recognition of peptide hormone using close-packed arrays of hPTHR-conjugated polymer nanoparticles
by O. S. Kwon, S. R. Ahn, S. J. Park, H. S. Song, S. H. Lee, J. S. Lee, J-Y. Hong, J. S. Lee, S. A. You, H. Yoon, T. H. Park*, J. Jang* ACS Nano 6 (6), 5549-5558 (2012) [LINK]
[4] Multidimensional conducting polymer nanotubes for ultrasensitive chemical nerve agent sensing
by O. S. Kwon, S. J. Park, J. S. Lee, E. Park, T. Kim, H-W. Park, S. A. You, H. Yoon*, J. Jang* Nano Lett. 12 (6), 2797-2802 (2012) [LINK]
[3] Flexible FET-Type VEGF aptasensor based on nitrogen-doped graphene converted from conducting polymer
by O. S. Kwon, S. J. Park, J-Y. Hong, A-R. Han, J. S. Lee, J. S. Lee, J. H. Oh*, J. Jang* ACS Nano 6 (2), 1486-1493 (2012) [LINK]
[2] One-pot synthesis of silver nanoparticles decorated poly(3,4-ethylenedioxythiophene) nanotubes for chemical sensor application
by E. Park, O. S. Kwon, S. J. Park, J. S. Lee, S. You, J. Jang* J. Mater. Chem. 22 (4), 1521-1526 (2012) [LINK]
2011
[1] Fabrication of ultrafine metal-oxide-decorated carbon nanofibers for DMMP sensor application