4. Publications
113. Holey sheets enhance the packing and osmotic energy harvesting of graphene oxide membranes [link]
ACS Nano, 18(28), 18584-18591 (2024)
H. Park, K. H. Lee (Co-first author), S. H. Noh, W. Eom, J. Huang*, and T. H. Han*
112. Highly stable heating fibers of Ti3C2Tx MXene and polyacrylonitrile via synergistic thermal annealing [link]
Small Methods (online published)
W. Jeong, H. Shin, D. J. Kang, H. Jeon, J. Seo*, and T. H. Han*
111. Unlocking highly stable and reversible in-situ integration of defect-rich 2D vanadium sulfide with Ti3C2Tx MXene heterostructures : Boosting asymmetric supercapacitor performance [link]
Journal of Power Sources, 608, 234615 (2024)
R, B, Ambade, S. B. Ambade, G. K. Veerasubramani, K. H. Lee, Y. A. Samad, and T. H. Han*
110. Structural asymmetry and chiral-induced spin-selectivity in chiral palladium-halide semiconductors [link]
Journal of the American Chemical Society, 146, 22, 15045-15052 (2024)
S. H. Nam, J. An, W. Jeong, J. G. Oh, J. Luther, M. Beard, T. H. Han, I.-H. Park, and Y.-H. Kim*
109. Sustainable 3D printing by reversible salting-out effects with aqueous salt solutions [link]
Nature Communications, 15, 3925 (2024)
D. Ji, J. Liu, J. Zhao, M. Li, Y. Rho, H. Shin, T. H. Han, and J. Bae*
*Featured in UC San Diego Today [link]
"Sustainable and Reversible 3D Printing Method Uses Minimal Ingredients and Steps"
108. Programming Anisotropic Functionality of 3D Microdenticles by Staggered-Overlapped and Multilayered Microarchitectures [link]
Advanced Materials, 35, 2309518 (2024)
J. E. Park, H. Je, C. R. Kim, S. Park, W. Cho, S. Won, D. J. Kang, T. H. Han, R. Kwak, S. G. Lee*, S. Kim*, and J. J. Wie*
*Featured in Phys.org [link]
107. Multi-functional locomotion of collectively assembled shape-reconfigurable electronics [link]
Nano Energy, 118, 108953 (2023)
W. Cho, D. J. Kang (Co-first author), M. J. Hahm, J. Jeon, D. -G. Kim, Y. S. Kim, T. H. Han*, and J. J. Wie*
106. Surface nitrided MXene sheet with outstanding electroconductivity and oxidation stability [link]
Materials Horizons, 10, 4892-4902 (2023)
W. Eom, H. Shin (Co-first author), W. Jeong, A. Rohan, H. Lee, and T. H. Han*
105. Impermeable graphene skin increases the heating efficiency and stability of an MXene heating element [link]
Small, 19(44), 23010 (2023)
D. J. Kang, K. H. Lee, S. H. Noh, H. Shin, W. Jeong, H. Lee, Y. Seo, and T. H. Han*
104. Nitrogen and sulfur co-doped carbon quantum dot-engineered TiO2-graphene on carbon fabric for photocatalysis applications [link]
ACS Applied Nano Materials, 6(17), 15782-15794 (2023)
R. B. Ambade, M. Ali, K. H. Lee, W. Jeong, S. H. Jeong, and T. H. Han*
103. Directed charge boosting by polyelectrolyte nanorods on a graphene oxide membrane for high-performance blue energy harvesting [link]
Chemical Engineering Journal, 470, 144082 (2023)
K. H. Lee, H. Lee, W. Jeong, and T. H. Han*
102. Tracking the thermal dynamics of Ti3C2Tx MXene with XPS and two-dimensional correlation spectroscopy [link]
Applied Physics Letters 122, 211601 (2023)
W. Eom, H. Shin, and and T. H. Han*
"Special Collection: MXenes - Physics and Devices"
101. Grafting Behavior of Amine Ligands for Surface Modification of MXene [link]
Langmuir, 39(6), 2358-2367 (2023)
H. Shin, H. Lee, Y. Seo, W. Jeong, and T. H. Han*
100. Advances in porous graphene and scalable wet-spinning fiber assembly [link]
Accounts of Materials Research, 4(5), 389-402 (2023)
R. B. Ambade, K. H. Lee, D. J. Kang, and T. H. Han*
99. Elucidation and modulation of active sites in holey graphene electrocatalysts for H2O2 production [link]
EcoMat, 5(1), e12266 (2023)
K. H. Koh, A. H. B. Mostaghimi , Q. Chang, Y. J. Kim, S. Siahrostami*, T. H. Han*, and Z. Chen*
Polymers, 14(20), 4353 (2022)
H. B. Lee, K. S. Lee, S. J. Kim, B. I. Choi, B. R. Go, C. J. Rhu, and T. H. Han*
" Special Issue Microplastics Degradation and Characterization"
97. Joule heating-induced faradaic electrode-decorated graphene fibers for flexible fiber-shaped hybrid supercapacitor with high volumetric energy density [link]
Carbon, 198 (15), 252-263 (2022)
H. B. Lee, G. K. Veerasubramani, K. S. Lee, H. Lee, and T. H. Han*
96. Sub-second joule heated RuO2-decorated nitrogen and sulfur doped graphene fibers for flexible fiber-type supercapacitors [link]
ACS Applied Materials & Interfaces, 14(26), 29867-29877 (2022)
S. H. Noh, H. B. Lee, K. S. Lee, H. Lee, and T. H. Han*
95. Ultrafast flashlight sintered mesoporous NiO nanosheets for stable asymmetric supercapacitors [link]
Chemical Engineering Journal, 436(15), 135041 (2022)
R. B. Ambade, H. Lee, K. H. Lee, H. Lee, G. K. Veerasubramani, Y.-B. Kim,* and T. H. Han*
94. Elaborating nitrogen and oxygen dopants configurations within graphene electrocatalysts for two-electron oxygen reduction [link]
ACS Materials Letters, 4(2), 320-328 (2022)
K. H. Koh, Y. J. Kim, A. H. B. Mostaghim, S. Siahrostami,* T. H. Han,* and Z. Chen*
93. Holey graphene oxide membranes containing both nanopores and nanochannels for highly efficient harvesting of water evaporation energy [link]
Chemical Engineering Journal, 430(2), 132759 (2022)
K. H. Lee, D. J. Kang, W. Eom, H. Lee, T. H. Han*
92. Delamination of graphene/ZnO interlayer driven by photocatalytic effect for flexible a-IGZO TFT applications [link]
Applied Surface Science, 571, 151358 (2022)
W. -B. Lee, H. Shin, K. -L. Han, T. Hong, T. H. Han*, and J. -S. Park*
91. Comparison of the strength of various disposable videolaryngoscope blades [link]
Canadian Journal of Anesthesia/Journal canadien d'anesthésie, 68, 1651–1658 (2021)
J. Choi, Y. Song, H. Lee, Y. Cho, T. H. Han, and T. H. Lim*
90. Microstructure-controlled polyacrylonitrile/graphene fibers over 1 gigapascal strength [link]
ACS Nano, 15(8), 13055-13064 (2021)
W. Eom, S. H. Lee, H. Shin, W. Jeong, K. H. Koh, and T. H. Han*
89. Peeling mechanism of interlocked interface between etched acrylonitrile-butadiene styrene and electroplated metal layer [link]
Surfaces and Interfaces, 26, 101337 (2021)
J. S. Seo, H. T. Jeon*, and T. H. Han*
88. Sub-nanometer confinement enables facile condensation of gas electrolyte for low-temperature batteries [link]
Nature Communications, 12, 3395 (2021)
G. Cai, Y. Yin, D. Xia, A. A. Chen, J. Holoubek, J. Scharf, Y. Yang, K. H. Koh, M. Li, D. M. Davies, M. Mayer, T. H. Han, Y. S. Meng, T. A. Pascal, and Z. Chen*
87. Effect of metal/metal oxide catalysts on graphene fiber for improved NO2 sensing [link]
Sensors and Actuators B: Chemical, 344, 130231 (2021)
W. Eom, J. -S. Jang, S. H. Lee, E. Lee, W. Jeong, I. -D. Kim*, S. -J. Choi*, and T. H. Han*
86. Photo-triggered shape reconfiguration in stretchable reduced graphene oxide-patterned azobenzene-functionalized liquid crystalline polymer networks [link]
Advanced Functional Materials, 31, 2102106 (2021)
W. Cho, J. Jeon, W. Eom, J. G. Lee, D. -G. Kim, Y. S. Kim, T. H. Han*, and J. J. Wie*
85. Photonic split-second induced mesoporous TiO2-graphene architectures for efficient sodium-ion batteries [link]
Carbon, 178, 332-344 (2021)
R. B. Ambade, G. K. Veerasubramani, S. B. Ambade, M. Christy, W. Eom, H. Shin, Y. -B. Kim*, D, -W. Kim*, and T. H. Han*
84. Highly electroconductive lightweight graphene fibers with high current-carrying capacity fabricated via sequential continuous electrothermal annealing [link]
Chemical Engineering Journal, 414, 128803 (2021)
H. B. Lee, S. H. Noh, and T. H. Han*
83. Highly electroconductive and mechanically strong Ti3C2Tx MXene fibers using deformable MXene gel [link]
ACS Nano, 15(2), 3320-3329 (2021)
H. Shin, W. Eom, K. H. Lee, W. Jeong, D. J. Kang, and T. H. Han*
82. Carbon nanotube-reduced graphene oxide fiber with high torsional strength from rheological hierarchy control [link]
Nature Communications, 12, 396 (2021)
W. Eom, E. Lee, S. H. Lee, T. H. Sung, A. J. Clancy, W. J. Lee* , and T. H. Han*
81. Effects of blend composition on the morphologies and physical properties of polycarbonate/acrylonitrile‐butadiene‐styrene blends [link]
Journal of Applied Polymer Science, 138(19), 50404 (2021)
J. S. Seo, H. T. Jeon*, and T. H. Han*
80. Rheological Investigation of Relaxation Behavior of Polycarbonate/ Acrylonitrile-Butadiene-Styrene Blends [link]
Polymers, 12, 1916 (2020)
J. S. Seo, H. T. Jeon*, and T. H. Han*
79. Large-scale wet-spinning of highly electroconductive MXene fibers [link]
Nature Communications, 11, 2825 (2020)
W. Eom, H. Shin (Co-first author) , R. B. Ambade (Co-first author) , S. H. Lee, K. H. Lee, D. J. Kang, and T. H. Han*
Highlied in recent research on Inorganic, Nanoscale and Physical Chemistry
Dedicated Editors’ Highlights page
78. Super-expansion of assembled reduced graphene oxide interlayers by segregation of Al nanoparticle pillars for high-capacity Na-ion battery anodes [link]
ACS Applied Materials & Interfaces, 12, 21, 23781–23788 (2020)
S. Pyo, W. Eom, Y. J. Kim, S. H. Lee, T. H. Han*, and W.-H. Ryu*
77. Aqueous-processable surface modified graphite with manganese oxide for lithium-ion battery anode [link]
Applied Surface Science, 526, 146720 (2020)
S. Lee*, J. W. Lee, W. Eom, Y. W. Jung, and T. H. Han*
76. Ultrafast photo-annealed carbon-coated SiO2 sphere electrodes for NO2 gas sensing [link]
Carbon, 162, 562-569 (2020)
S. H. Noh, H. Lee, S. H. Lee, H. B. Lee, Y.-B. Kim*, and T. H. Han*
75. Room-temperature, highly durable Ti3C2Tx MXene/graphene hybrid fibers for NH3 gas sensing [link]
ACS Applied Materials & Interfaces, 12(9), 10434-10442 (2020)
S. H. Lee, W. Eom, H. S. Shin, A. B. Rohan, J. H. Bang, H. W. Kim*, and T. H. Han*
74. Graphene-foam cantilever produced via simultaneous foaming and doping effect of organic coagulant [link]
ACS Applied Materials & Interfaces, 12(9), 10763-10771 (2020)
S. H. Noh, H. Park, W. Eom, H. B. Lee, D. J. Kang, J. Y. Cho, T. H. Sung, and T. H. Han*
73. Mechanisms of two-electron and four-electron electrochemical oxygen reduction reactions at nitrogen-doped reduced graphene oxide [link]
ACS Catalysis 10 (1), 852-863 (2020)
H. Y. Kim, V. J. Bukas, H. Park, S. Park, K. M. Diederichsen, J. Lim, Y. H. Cho, J. Kim, W. Kim, T. H. Han, J. Voss, A. C. Luntz, and B. D. McCloskey*
72. Kinetically controlled low-temperature solution-processed mesoporous rutile TiO2 for high performance lithium-ion batteries [link]
Journal of Industrial and Engineering Chemistry, 80, 667-676 (2019)
R. B. Ambade, K. H. Koh, S. B. Ambade, W. Eom, S. H. Noh, C. M. Koo, S. H. Kim, and T. H. Han*
71. Stiffening of graphene oxide films by soft porous sheets [link]
Nature Communications, 10, 3677 (2019)
L. Mao, H. Park, R. A. Soler-Crespo, H. D. Espinosa*, T. H. Han*, S. T. Nguyen*, and J. Huang*
70. Graphene quantum dots/graphene fiber nanochannels for osmotic power generation [link]
Journal of Materials Chemistry A, 7, 23727-23732 (2019)
K. H. Lee, H. Park, W. Eom, D. J. Kang, S. H. Noh, and T. H. Han*
"the themed collection: Journal of Materials Chemistry A Emerging Investigators"
69. Carbon defect characterization of nitrogen-doped reduced graphene oxide electrocatalysts for the two-electron oxygen reduction reaction [link]
Chemistry of Materials, 31(11), 3967-3973 (2019)
H. Y. Kim, H. Park, J. S. Roh, J. E. Shin, T. H. Lee, L. Zhang, Y. H. Cho, H. W. Yoon, V. J. Bukas, J. Guo, H. B. Park, T. H. Han, and B. D. McCloskey*
68. Tailored nanoplateau and nanochannel structures using solution-processed rutile TiO2 thin films for complementary and bipolar switching characteristics [link]
Nanoscale 11, 13815 (2019)
Y. Abbas, R. B. Ambade, S. B. Ambade, T. H. Han*, and C. Choi*
67. Rapid gas-induced detachable rGO/MnO debonding layer for flexible electronic applications [link]
Carbon, 146, 756-762 (2019)
Y. B. Kim, T. H. Hong, J. Sheng, H. Park, S. H. Noh, S. B. Ambade, W. Eom, J.-S. Park*, and T. H. Han*
66. Tunable electronic properties of nitrogen and sulfur doped graphene: density functional theory approach [link]
Nanomaterials, 9(2), 268 (2019)
J. H. Lee, S. H. Kwon, S. Kwon, M. Cho, K. H. Kim, T. H. Han* and S. G. Lee*
65. The effect of diverse metal oxides in graphene composites on the adsorption isotherm of gaseous benzene [link]
Environmental Research, 172, 367-374 (2019)
A. Khan, R. E. Szulejko, P. Samaddar, K.-H. Kim*, W. Eom, S. B. Ambade, and T. H. Han*
64. Porous graphene-carbon nanotube scaffold for fiber supercapacitors [link]
ACS Applied Materials & Interfaces, 11(9), 9011–9022 (2019)
H. Park, R. B. Ambade (Co-first author), S. H. Noh (Co-first author), W. Eom, K. H. Koh, S. B. Ambade, W. J. Lee, S. H. Kim, and T. H. Han*
63. Joule heating-induced sp2-restoration in graphene fibers [link]
Carbon, 142, 230-237 (2019)
S. H. Noh, W. Eom, W. J. Lee, H. Park. S. B. Ambade, S. O. Kim*, and T. H. Han*
62. Extreme properties of double networked ionogel electrolytes for flexible and durable energy storage devices [link]
Energy Storage Materials 19, 197-205 (2019)
H. H.Rana, J. H. Park, E. Ducrot, H. Park, M. Kota, T. H. Han, J. Y. Lee, J. Kim, J.-H. Kim, P. Howlett, M. Forsyth, D. MacFarlane, H. S. Park*
61. 2D Ti3C2 MXene/WO3 hybrid architectures for high-rate supercapacitors [link]
Advanced Materials Interfaces, 5, 1801361 (2018)
S. B. Ambade, R. B. Ambade, W. Eom, S. H. Noh, S. H. Kim, and T. H. Han*
"selected as the top 10% most downloaded papers"
60. Dynamic assembly of liquid crystalline graphene oxide gel fibers for ion transport [link]
Science Advances, 4 (11), eaau2104 (2018)
H. Park, K. H. Lee, Y. B. Kim, S. B. Ambade, S. H. Noh, W. Eom, J. Y. Hwang, W. J. Lee*, J. Huang*, T. H. Han*
59. Graphene oxide liquid crystals: a frontier 2D soft material for graphene-based functional materials [link]
Chemical Society Reviews, 47, 6013-6045 (2018)
S. P. Sasikala, J. Lim, I. Kim, H. J. Jung, T. Y. Yun, T. H. Han*, and S. O. Kim*
58. Styrenic block copolymer/sulfonated graphene oxide composite membranes for highly bendable ionic polymer actuators with large ion concentration gradient [link]
Composites Science and Technology, 163(28), 63-70 (2018)
J.-W. Lee, T. Kwon, Y. Kang, T. H. Han, C. G. Cho, S. M. Hong, S.-W. Hwang, C. M. Koo*
57. High-strain PVC films plasticized by TiO2 nanoparticles [link]
Polymer(Korea), 41(6), 992-997 (2017)
W. Eom, Y. B. Kim, S. H. Kim, and T. H. Han*
56. Three-dimensionally stacked Al2O3/graphene oxide for gas barrier applications [link]
Carbon, 125, 464-471 (2017)
D.-W. Choi, H. Park, J. H. Lim, T. H. Han*, and J.-S. Park*
55. Synthesis and characterization of poly(butylene succinate)-reduced graphene oxide composite through in-situ melt polymerization [link]
Journal of Polymer Research, 24, 213 (2017)
J. M. Koo, H. Park, S. Y. Hwang, T. H Han*, and S. S. Im*
54. High-temperature stable anatase titanium oxide nanofibers for lithium ion battery anodes [link]
ACS Applied Materials & Interfaces, 9(30), 25332-25338 (2017)
S. Lee*, W. Eom, H. Park, and T. H. Han*
53. Graphene quantum dot/phthalocyanine conjugate: A synergistic catalyst for the oxygen reduction reaction [link]
RSC Advances 7, 26113-26119 (2017)
K. H. Koh, S. H. Noh, T.-H. Kim, W. J. Lee, S.-C. Yi*, and T. H. Han*
52. A graphene-phthalocyanine hybrid as a next photoactive layer [link]
Carbon, 119, 476-482 (2017)
S. H. Noh, H. Park (Co-first author), W. Jang (Co-first author), K. H. Koh, M. Yi, J. M. Lee, T. Subramaniam, J. Y. Jaung, D. H. Wang*, and T. H. Han*
51. Enhanced thermal conductivity of epoxy/copper-plated carbon fabric composites [link]
Macromolecular Research 25, 559-564 (2017)
S. Yu, K. Park, J.-W. Lee. S. M. Hong, C. Park*, T. H. Han*, and C. M. Koo*
50. Strengthening and stiffening graphene oxide fiber with trivalent metal ion binders [link]
Particle & Particle Systems Characterization 34, 1600401 (2017)
W. Eom, H. Park, S. H. Noh, K. H. Koh, K. Lee, W. J. Lee*, and T. H. Han*
"Invited article for special issue on graphene oxide liquid crystal"
49. Graphene-Mimicking 2D Porous Co3O4 Nanofoils for Lithium Battery Applications [link]
Advanced Functional Materials, 26, 7605-7613 (2016)
W. Eom, A. Kim(Co-first author), H. Park(Co-first author), H. Kim*, and T. H. Han*
48. Metal-assisted mechanochemical reduction of graphene [link]
Carbon, 110, 79-86 (2016)
M. Shon, E. Park, B. M. Yoo, T. H. Han, H. B. Park, and H. Kim*
47. Exploring Graphene Quantum Dots/TiO2 interface in photoelectrochemical reactions: Solar to fuel conversion [link]
Electrochimica Acta, 187, 249-255 (2016)
P. Sudhagar, I. Herraiz-Cardona, H. Park, T. Song, S. H. Noh, S. Gimenez*, I. M. Sero, F. Febregat-Santiago, J. Bisquert, C. Terashima, U. Paik, Y. S. Kang*, A. Fujishima, and T. H. Han*
46. Novel hybridization approaches for graphene-based nanocomposites [link]
Science of Advanced Materials, 7, 1962-1978 (2015)
S. H. Noh, V. C. Tung*, T. H. Han*, R. Cruz-Silva*
"Invited review article for special issue on functional nanomaterials"
45. Large Scale Synthesis and Light Emitting Fibers of Tailor-Made Graphene Quantum Dots [link]
Scientific Reports, 5, 14163 (2015)
H. Park, S. H. Noh, J. H. Lee, W. J. Lee, J. Y. Jaung, S. G. Lee*, and T. H. Han*
44. High performance dye-sensitized solar cells using graphene modified fluorine-doped tin oxide glass by Langmuir-Blodgett technique [link]
Journal of Solid State Chemistry, 224, 71-75 (2015)
K.-M. Roh, E.-H. Ho, H. Chang. T. H. Han, H. D. Jang*
43. Exfoliation of titanium oxide powder into nano sheets using hydrothermal reaction and its reassembly into flexible papers for thin-film capacitors [link]
Journal of Solid State Chemistry, 224, 76-81 (2015)
S. Lee, H. Park, U. Paik, T. H. Han*
"Invited article for a special issue on 2-dimensional materials"
42. Direct assembly of graphene oxide on flexible substrates for highly transparent electrodes via the Langmuir-Blodgett technique [link]
J. Nanosci. Nanotechnol. 15, 1191-1194 (2015)
T. H. Han
41. Direct hybridization of tin oxide/graphene nanocomposites for highly efficient lithium-ion battery anodes [link]
Journal of Electroceramics 33, 195-201 (2014)
D. O. Shin, H. Park, Y.-G. Lee, K. M. Kim, T. H. Han*
40. Vertical arrays of photoluminescent Alq3 nanotubes on flexible substrates by vapor deposition [link]
Molecular Crystals and Liquid Crystals, 602, 1930199 (2014)
H. Park, S. H. Noh, J. Y. Jaung, T. H. Han*
39. Sulfonated graphene oxide/Nafion composite membrane for vanadium redox flow battery [link]
J. Nanosci. Nanotechnol. 14, 9073-9077 (2014)
B. G. Kim, T. H. Han, C. G. Cho*
38. Spherulitic assembly of peptide nanowires via spontaneous crystallization [link]
J. Nanosci. Nanotechnol. 14, 8800-8803 (2014)
T. H. Han
37. LbL assembly sPPO composite membrane containing GO for DMFC applications [link]
Molecular Crystals and Liquid Crystals, 598, 16-22 (2014)
B. G. Kim, H. Park, T. H. Han, C. G. Cho*
36. Facile hybridization of graphene oxide and Cu2O for high-performance electrochemical supercapacitors [link]
Macromolecular Research 22(8), 809-812 (2014)
H. Park, T. H. Han*
35. Thermal Shrinkage of Chemically Recycled and Virgin Poly(ethylene terephthalate) Blends [link]
Macromolecular Research 22, 782-787 (2014)
S. H. Lee, T. H. Han, S. H. Kim*
34. Facile and ecofriendly fluorination of graphene oxide [link]
Bull. Korean Chem. Soc. 35(7), 2139-2142 (2014)
S. K. Yadav, J. H. Lee, H. Park, S. M. Hong, T. H. Han*, C. M. Koo*
33. Nitrogen-doped carbon nanotubes & graphene composite structures for energy & catalytic applications [link]
Chemical Communications, 50, 6818-6830 (2014)
W. J. Lee, U. N. Maiti, J. M. Lee, J. Lim, Y. Oh, T. H. Han*, S. O. Kim*
32. RTA-treated carbon fiber/copper core-shell hybrid for thermally conductive composites [link ]
ACS Applied Materials & Interface, 6, 7498-7503 (2014)
S. Yu, B. Park, C. Park, S. M. Hong, T. H. Han*, C. M. Koo*
31. N-doped graphitic self-encapsulation for high performance silicon anodes in lithium-ion batteries [link]
Energy & Environmental Science 7, 621-626 (2014)
J. Lee, T. H. Hwang, J. O. Hwang, H. W. Kim, J. W. Lim, H. Y. Jeong, J. W. Shim, T. H. Han, J. Y. Kim, J. W. Choi, S. O. Kim*
30. Ultrathin polypyrrole nanosheets doped with HCl as counter electrodes in dye-sensitized solar cells [link]
Journal of Materials Chemistry A 2, 859-865 (2014)
D. K. Hwang, D. Song, S. S. Jeon, T. H. Han, Y. S. Kang, S. S. Im*
29. Three-dimensional Gd-doped TiO2 fibrous photoelectrodes for efficient visible light-driven photocatalytic performance [link]
RSC Advances 4, 11750-11757 (2014)
J. Choi, P. Sudhagar, P. Lakshmipathiraj, J. W. Lee, A. Devadoss, S. Lee, T. Song, S. Hong, S. Eito, C. Terashima,T. H. Han, J. K. Kang, A. Fujishima, Y. S. Kang, U. Paik*
28. Chemically modified/doped carbon nanotubes & graphene for optimized nanostructures & nanodevices [link]
Advanced Materials, 26, 40-67 (2014)
U. N. Maiti, W. J. Lee, J. M. Lee, Y. T. Oh, J. Y. Kim, J. E. Kim, J. W. Shim, T. H. Han, S. O. Kim*
27. Copper shell networks in polymer composites for efficient thermal conduction [link]
ACS Applied Materials & Interface, 5, 11618-11622 (2013)
S. Yu, J.-W. Lee, T. H. Han*, C. Park, Y. Kwon, S. M. Hon, C. M. Koo*
26. Direct growth of polyaniline chains from N-doped sites of carbon nanotubes [link]
Small, 9, 3829-3833 (2013)
A. Haq, J. Lim, J. M. Yun, W. J. Lee, T. H. Han*, S. O. Kim*
25. Graphene oxide as a novel nanoplatform for direct hybridization of graphene-SnO2 [link]
Bull. Korean Chem. Soc. 34, 3269-3273 (2013)
H. Park, T. H. Han*
24. A facile route to fabricate stable reduced graphene oxide dispersions in various media and their transparent conductive thin films [link]
Journal of Colloid & Interface Sci. 383, 36–42 (2012)
K. Min, T. H. Han, J. Kim, C. Jung, S. M. Hong, C. M. Koo*
23. Biomineralized N-doped CNT/TiO2 core/shell nanowires for visible light photocatalysis [link]
ACS Nano 6, 935-943 (2012)
W. J. Lee, J. M. Lee, S. T. Kochuveedu, T. H. Han, H. Y. Jeong, M. Park, J. M. Yun, J. Kwon, K. No, D. H. Kim, S. O. Kim*
[Before 2012]
22. Hydration-responsive folding and unfolding in graphene oxide liquid crystal phases [link]
ACS Nano 5, 8019-8025 (2011)
F. Guo, F. Kim, T. H. Han, V. Shenoy, J. Huang, R. H. Hurt
21. Steam etched porous graphene oxide network for chemical sensing [link]
J. Am. Chem. Soc. 133, 15264–15267 (2011)
T. H. Han+, Y.-K. Huang+, A. Tan, V. P. Dravid, J. Huang (+equal contribution)
20. Graphene electrodes for artificial muscles [link]
Mol. Cryst. Liq. Cryst 539, 260-265 (2011)
K. Min, J. Y. Jung, T. H. Han, C. Jung, S. M. Hong, C. M. Koo
19. Graphene oxide liquid crystals [link]
Angew. Chemie. Int. Ed. 50, 3043-3047 (2011)
J. E. Kim, T. H. Han, S. H. Lee, J. Y. Kim, C. W. Ahn, J. M. Yun, S. O. Kim
18. Vertical ZnO nanowires/graphene hybrids for transparent and flexible field emission [link]
J. Mater. Chem. 21, 3432-3437 (2011)
J. O. Hwang, D. H. Lee, J. Y. Kim, T. H. Han, B. H. Kim, M. Park, K. No, S. O. Kim
17. Biomineralization of vertical N-doped carbon nanotubes [link]
Chem. Comm. 47, 535-537 (2011)
W. J. Lee, D. H. Lee, T. H. Han, S. H. Lee, H.-S. Moon, J. A. Lee, W. J. Lee, S. O. Kim
16. Improved oxygen diffusion barrier properties of hybrid ruthenium-titanium nitride thin films prepared by plasma enhanced atomic layer deposition
J. Nanosci. Nanotechnol. 11, 671-674 (2011)
S.-J. Jeong, D.-I. Kim, S. O. Kim, T. H. Han, J.-D. Kwon, J.-S. Park, S.-H. Kwon
15. Capillarity induced large area patterning of peptide nanowires [link]
J. Nanosci. Nanotechnol. 10, 6954-6957 (2010)
J. S. Park, T. H. Han, Jun Jyun Oh, S. O. Kim
14. A plasmonic biosensor array by block copolymer lithography [link]
J. Mater. Chem. 20, 7241-7247 (2010)
D. O. Shin, J.-R. Jeong, T. H. Han, K. J. Min, H.-J. Park, Y. T. Lim, S. O. Kim
13. Hierarchically ordered dendritic architecture from diphenylalanine assembly [link]
Colloids Surf.B: Biointerfaces 79, 440-445 (2010)
T. H. Han, J. K. Oh, G.-J. Lee, S.-I. Pyun, S. O. Kim
12. Peptide/graphene hybrid assembly into core/shell nanowires [link]
Adv. Mater. 22, 2060-2064 (2010)
T. H. Han, W. J. Lee, D. H. Lee, J. E. Kim, E. Y. Choi, S. O. Kim
11. Peptide-templating dye sensitized solar cells [link]
Nanotechnology 21, 185601 (2010)
T. H. Han, H.-S. Moon, J. O. Hwang, S. I. Seok, S. H. Lim, S. O. Kim
10. Bionanosphere lithography via hierarchical peptide self-assembly of aromatic triphenylalanine [link]
Small 6, 945-951 (2010)
T. H. Han, T. Ok, J. Kim, D. O. Shin, H. Ihee, H.-S. Lee, S. O. Kim
9. Versatile carbon hybrid films composed of vertical carbon nanotubes grown on mchanically compliant graphene films [link]
Adv. Mater. 22, 1247-1252 (2010)
D. H. Lee, J. E. Kim, T. H. Han, S. W. Jeon, S.-Y. Choi, W. J. Lee, R. S. Ruoff, S. O. Kim
8. Noncolvalent functionalization of graphene with end-functional polymers [link]
J. Mater. Chem. 20, 1907-1912 (2010)
E.-Y. Choi, T. H. Han, J. Hong, J. E. Kim, S. H. Lee, H. W. Kim, S. O. Kim
7. Role of water in directing diphenylalanine assembly into nanotubes and nanowires [link]
Adv. Mater. 22, 583-587 (2010)
J. Kim, T. H. Han, J. S. Park, Y.-I. Kim, D. G. Churchill, S. O. Kim, H. Ihee
6. Size-dependent isotropic-nematic phase transition of size-tunable peptide nanowires [link]
Macromol. Chem. Phys. 210, 1283-1290 (2009)
J. S. Park, T. H. Han, J. K. Oh, S. O. Kim
"Cover article"
5. Fabrication and electrochemical characterization of TiO2 three dimensional nanonetwork based on peptide assembly [link]
ACS Nano, 3, 1085-1090 (2009)
S.-W. Kim, T. H. Han, J. Kim, H. Gwon, H.-S. Moon, S.-W. Kang, S. O. Kim, K. Kang
4. Highly entangled hollow TiO2 nanoribbons templating diphenylalanine assembly [link]
J. Mater. Chem. 19, 3512-3516 (2009)
T. H. Han, J. K. Oh, J. S. Park, S.-H. Kwon, S.-W. Kim, S. O. Kim
3. Morphology control of one-dimensional peptide nanostructures [link]
J. Nanosci. Nanotechnol. 8, 5547-5550 (2008)
T. H. Han, J. S. Park, J. K. Oh, S. O. Kim
2. Liquid crystalline peptide nanowires [link]
Adv. Mater. 19, 3924-3927 (2007)
T. H. Han, J. Kim, J. S. Park, C. B. Park, H. Ihee, S. O. Kim
1. Hierarchically ordered polymer films by templated organization of aqueous droplet [link]
Adv. Funct. Mater. 17, 2315-2320 (2007)
J. S. Park, S. H. Lee, T. H. Han, S. O. Kim
[Non SCI(E) Articles]
10. 그래핀섬유를 이용한 전계 방출 특성 평가 [link]
Textile Science and Engineering (한국섬유공학회지), 58(5), 361-367 (2021)
이은송, 엄원식, 김영배, 정근수, 김세훈, 한태희*
9. 카본나노튜브/폴리에스터 유연 발열 직물의 제조와 나노 규모의 전도성 망이 발열 특성에 미치는 영향 연구 [link]
Textile Science and Engineering (한국섬유공학회지), 58(5), 267-273 (2021)
강동준, 신환수, 이학봉, 정우재, 이현후, 한태희*
8. 유동성 맥신젤을 이용한 고전도도 및 고강도 Ti3C2Tx 맥신 섬유 제조와 SAXS를 이용한 미세구조 분석 [link]
Synchrotron Radiation Science & Technology (방사광 과학과 기술), 28(3), 26-30 (2021)
H. Shin and T. H. Han*
7. 섬유의 항균 기능화 공정 개발 동향 [link]
Textile Technology and Industry (섬유기술과산업), 25(2), 88-94 (2021)
Y. Kim, K. S. Lee, H. Lee, and T. H. Han*
6. PVC 필름의 연신률 특성에 대한 TiO2 나노입자 형상의 영향
Journal of The Research Institute of Industrial Sciences (산업과학논문집), 69, 35-39 (2020)
W. J. Jeong, W. Eom, and T. H. Han*
5. 웨어러블 스마트 텍스타일 섬유 개발 동향 [link]
Textile Technology and Industry (섬유기술과산업), 24(3), 140-149 (2020)
W. J. Jeong, D. J. Kang, and T. H. Han*
4. 전열원리를 이용한 발열섬유 구조체의 최신 연구 현황 [link]
Textile Technology and Industry (섬유기술과산업), 22(4), 297-302 (2018)
S. H. Noh, W. Eom, I. Choi, and T. H. Han*
3. Graphene Coated Acrylic Based Fabric Heaters (그래핀이 코팅된 아크릴 기반 발열 직물제조를 위한 연구) [link]
Textile Science and Engineering (한국섬유공학회지), 55(2), 118-123 (2018)
S. H. Noh, W. Eom, S. B. Ambade, S. H. Kim, and T. H. Han*
2. Hybrid Nanofabrication Technology via Self-Assembled Bio-Templates (자기조립 바이오 템플릿 기반 하이브리드 나노제작 기술) [Link]
Polymer Science and Technology (고분자 과학과 기술). 26(3) 215-220 (2015)
노승현, 박헌, 한태희
1. 분자조립 기술을 이용한 무/유기 3차원 배열 기술 (3-dimensional arrangement of organic/inorganic hybrid systems via molecular assembly) [Link]
세라미스트, 12(2), 91-97 (2009)
한태희, 황진옥, 문형석, 김상욱