Publications


2024

103.  Seo. B.S.; Choi. Y.; Noh. D.W.; Kim. J.H.; Chen. X.; Choi. W.*;  "Minimizing electrode footprint in tactile sensors for human interactive electronics", (submitted)

102.  Seo. B.S.; Noh D.W.; Choi. Y.; Chen. X.*; Hu. R.*; Choi. W.*;  "Mechanical-stimuli-driven pseudo-conductive channels along dielectric heterojunction interfaces for mechanoelectric energy conversion and transmission", (submitted)

101.  Seo. B.S.; Kim. D.H.; Park. S.H.; Shin. D.J.; Kim. K.M.; Choi. W.*;  "Electrothermally tailored lithiophilic Co/CoxOy@porous graphite composites for high-performance Li-ion/metal hybrid batteries", (submitted)

100.  Lim. D.H.; Lee. J.W.; Park. J.W.; Lee. J.M.; Noh. D.W.; Park. S.J.; Grace. X. Gu.*; Choi. W.*; "Multifunctional seamless meta-sandwich composite as lightweight, load-bearing, and broadband-electromagnetic-wave-absorbing structure", (submitted)

99.  Shin. D.J.; Ryu. K.H.; Kim. D.H.; Choi. E.H.;  Chae. S.H.; Lee. Y.D.; Kang. Y.T.; Kim. S.T.*; Choi. W.*; "Boosted Thermogalvanic Thermopower upon Solid-to-Liquid Phase Transition", (submitted)

98.  Cha. Y.S.; Kim. T.W.; Jang. H.Y.; Noh. D.W.; Choi. W.*; "Synthesis of trimetallic oxide/nitrogen-doped carbon composite via ZIF-guided combustion pyrolysis for efficient bifunctional oxygen catalysis in zinc–air batteries", (submitted)

97.  Lee. J.H.‡; Han. H.S.‡; Noh. D.W.‡, Lee. J.W. Lim. D.H.; Park. J.W.; Grace. X. Gu.; Choi. W.*; "Multiscale porous architecture consisting of graphene aerogels and metastructures enabling robust thermal and mechanical functionalities of phase change materials", Advanced Functional Materials, 2024, DOI:10.1002/adfm.202405625

96.  Yun. J.Y.; Lee. J.M.; Kim. J.H.; Lee. J.W.; Choi. W.*; "Hexagonal boron nitride nanosheets/graphene nanoplatelets/cellulose nanofibers-based multifunctional thermal interface materials enabling electromagnetic interference shielding and electrical insulation", Carbon, 2024, 228, 119397

95.  Cho. Y.H.; Kim. T.W.; Kim. K.M.; Choi. W.*; "Combustion-Assisted Sintering for Tunable Densification of Manganese Cobalt Oxide Layers", Ceramics International, 2024, 50, 30730

94.  Lim. D.H.; Lee. S.R.; Lee. J.H.; Choi. W.*; Grace. X.Gu.*; "Mechanical metamaterials as broadband electromagnetic wave absorbers: investigating relationships between geometrical parameters and electromagnetic response",  Materials Horizons, 2024, 11, 2506

93.  Yeo. T.H.; Kim. K.M.; Lee. J.H.; Seo. B.S.;  Park. S.H.; Choi. W.*; "Studies toward morphological changes of silver/carbon fiber composites and their optimization for high-performance electrochemical electrodes", International Journal of Energy Research, 2024, 8851270

92.  Kim. S.G.; Kim. M.J.; Jang. K.J.; Yoon. S.G.; Choi. W.; Lee. H.S.; Shim. J.H.; Kagn. Y.T.*; "Indoor CO2 capture-driven passive cooling for photovoltaics with ventilation energy reduction utilizing amine-functionalized adsorbents", Energy Conversion and Management, 2024, 307, 118351

91.  Cha. Y.S.; Kim. T.W.; Kim. K.M.; Seo. J.W.; Jang. H.Y.; Choi. W.*; "Scalable exothermic synthesis of sprout-like Ni-Co-Fe trimetallic oxide nanoparticles anchored on N-doped carbon nanotubes as bifunctional oxygen catalysts for zinc-air batteries", Carbon, 2024, 220, 118859

90.  Zhu. Z.; Wang. Z.; Liu. T.; Xie. B.; Luo. X.; Choi. W.*; Hu. R.*; "Arbitrary-shape transformation multiphysics cloak by topology optimization", International Journal of Heat and Mass Transfer, 2024, 222, 125205

89.  Lee. H.M.; Noh. D.W.; Lee. S.J.; Lee. J.W.;  Choi. W.*; "Thermally driven hybrid metastructure for multi-functional surface acoustic wave engineering", International Journal of Mechanical Sciences, 2024, 262, 108722

2023

88.  Lee. J.W.; Lim. D.H.; Park. J.W.; Lee. J.M.; Noh. D.W.; Grace. X.Gu.*; Choi. W.*; "Multifunctionality of additively manufactured Kelvin foam for electromagnetic wave absorption and load bearing", Small, 2023, 19, 2305005

87.  Kim. S.B.; Shin. J.C.; Kim. H.S.; Park. J.C.; Baik. J.M.; Kim. S.Y.; Kang. C.Y.; Choi. W.*; Song. H.C.*; Hur. S.H.*; "A Synergetic Effect of Piezoelectric Energy Harvester to Enhance Thermoelectric Power: An Effective Hybrid Energy Harvesting Method", Energy Conversion and Management, 2023, 298, 117774

86.  Song. C.H.; Lee. J.M.; Lim. D.H.;  Shim. J.H.; Choi. W.*; "Rationally tunable PCM thermal properties enabled by three-dimensionally printed structural materials and carbon-based functional additives", International Journal of Energy Research, 2023, 6658082 

85.  Shin. D.J.; Chae. S.H.; Park. S.H.; Seo. B.S.; Choi. W.*; "Rational engineering of high-entropy oxides for Li-ion battery anodes with finely tuned combustion syntheses", NPG Asia Materials, 2023, 15, 54

84.  Song. C.H.; Lee. J.M.‡; Seo. B.S.; Shim. J.H.; Hu. R.*; Choi. W.*; "Enhanced cooling performance of three-dimensional printed heat sink via solution-processed layer-by-layer coatings", Advanced Engineering Materials, 2023, 25, 2300669

83.  Kyung. D.H.; Lee. H.M.‡; Lee. J.M.; Kim. J.H.; Lee. J.W.; Noh. D.W.; Choi. W.*; "Enhanced temperature-responsive functions of thermal metamaterials by interface engineering", International Journal of Heat and Mass Transfer, 2023, 215, 124509

82.  Park. S.H.; Seo. B.S.; Shin. D.J.; Chae. S.H.; Cho. H.J.; Kim. S.T.*; Choi. W.*; "Synthesis of carbon nanotube-iron oxide composites via combustion waves for hybrid Li-ion battery anodes", Chemical Engineering Journal, 2023, 470, 144260

81.  Lee. S.J.; Kim. K.M.; Choi. W.*; "Rational understanding of viscoelastic drop impact dynamics on porous surfaces considering rheological properties", Applied Physics Letters, 2023, 122, 261601

80.  Lee. J.M.; Kim. J.H.; Seo. B.S.; Shin. D.J.; Hwang. S.H.; Choi. W.*; "Layer-by-layer solution-processed two-dimensional graphene oxide–polyethylenimine thin-film coatings for enhanced pool boiling heat transfer", International Journal of Heat and Mass Transfer, 2023, 209, 124067

79.  Seo. B.S.; Cha. Y.S.; Choi. Y.; Kim. S.T.*; Choi. W.*; "Rationally designed micropixelation-free tactile sensors via contour profile of triboelectric field propagation", Nano Energy, 2023, 109, 108255

78.  Chang. W.H.; Kang. E.H.; Jeong. H.J.; Choi. W.; Shim. J.H.*; "Inkjet printing of perovskite ceramics for high-performance proton ceramic fuel cells", Energy, 2023, 268, 126489

77.  Seo. B.S.; Han. H.S.; Kim. K.M.; Noh. D.W.;  Shim. J.H.; Choi. W.*; "Humidity-thermoelectric bimodal energy harvester for sustainable power generation", Nano Energy, 2023, 107, 108120

76.  Koo. J.; Jeong. H.; Choi. W.; Shim. J.H.*; "Localized Growth of Atomic-Layer-Deposited Platinum Catalysts on Plasma-Treated Surface of Carbon Nanotubes", Scripta Materialia, 2023, 226, 115185

2022

75.  Kim. W.S.; Shin. D.J.; Seo. B.S.; Chae. S.H.; Jo. E.M.; Choi. W.*; "Precisely tunable synthesis of binder-free cobalt oxide-based Li-ion battery anode using scalable electrothermal waves", ACS Nano, 2022, 16, 17313

74.  Cha. Y.S.; Kim. T.W.; Seo. B.S.; Choi. W.*; "Combustion-driven synthesis route for bimetallic Ag-Bi nanoparticle-anchored carbon nanotube electrodes for high-performance supercapacitors", Carbon, 2022, 198, 11

73.  Kim. K.M.; Seo. B.S.; Park. S.H.; Shin. D.J.; Kim. S.S.; Choi. W.*; "Electrothermally driven nucleation energy control of defective carbon and nickel-cobalt oxide-based electrodes", ACS Nano, 2022, 16, 9772

72.  Kim. J.H.; Lee. J.M.; Song. C.H.; Yun. J.Y.; Choi. W.*; "Enhanced thermal performances of PCM heat sinks enabled by layer-by-layer-assembled carbon nanotube–polyethylenimine functional interfaces", Energy Conversion and Management, 2022, 266, 115853

71.  Lim. D.H.; Park. J.W.; Lee. J.M.; Noh. D.W.; Lee. J.W.; Choi. J.H.; Choi. W.*; "Broadband mechanical metamaterial absorber enabled by fused filament fabrication 3D printing", Additive Manufacturing, 2022, 55, 102856

70.  Seo. B.S.; Shin. I.C.; Cha. Y.S.; Kim. K.M.; Choi. W.*; "Ultrahigh thermopower waves in carbon nanotube-antimony telluride composites enabled by thermal decomposition of formaldehyde", International Journal of Energy Research, 2022, 46, 9926

69.  Cha. Y.S.; Seo. B.S.; Chung. M.K.; Kim. B.S.Y.; Choi. W.*; Park. W.S.*; "Skin-inspired thermometer enabling contact-independent temperature sensation via Seebeck-resistive bimodal system", ACS Applied Materials & Interfaces, 2022, 14, 17920

68.   Lim. D.H.; Lee. J.M.; Park J.W.; Choi. W.*; "High-resolution and electrically conductive three-dimensional printing of carbon nanotube-based polymer composites enabled by solution intercalation", Carbon, 2022, 194, 1

67.  Seo. B.S.; Kim. W.S.; Park. S.H.; Song. C.H.; Kim. S.S.; Choi. W.*; "Electrothermally tunable morphological and redox design of heterogeneous Pd/PdxOy/carbon for humidity-hydron-driven energy harvester", Nano Energy, 2022, 95, 107053

66.  Park. S.H.; Seo. B.S.; Shin. D.J.; Kim. K.M.; Choi. W.*; "Sodium-chloride-assisted synthesis of nitrogen-doped porous carbon shells via one-step combustion waves for supercapacitor electrodes", Chemical Engineering Journal, 2022, 433, 134486

65.   Lee. J.M.; Kyeong. D.H.; Kim J.H.; Choi. W.*; "Layer-by-Layer self-assembled functional coatings of carbon nanotube-polyethylenimine for enhanced heat transfer of heat sinks", International Journal of Heat and Mass Transfer, 2022, 184, 122344

64.   Yeo. T.H.; Seo. B.S.; Lee J.H.; Park. S.H.; Kim K.M; Choi. W.*; "Ultrafast Extreme Thermal–Electrical Fabrication of Volcano-Shape-like Core-Shell Ag-MnxOy Branches anchored on Carbon as High-Performance Electrochemical Electrodes", Nano Energy, 2022,  91, 106663

2021

63.   Lee. S.J.; Lee. H.M.; Lim. D.H.; Song C.H.; Choi. W.*; "Temperature-responsive ultrasonic-wave engineering using thermoresponsive polymers", Advanced Functional Materials, 2021,  31, 2104042

62.   Choi. Y.G.; Kim. H.S.; Lee. H.M.; Choi. W.; Kwon. S.J.; Han. J.H.; Cho. E.S.; "Effect of Ag mid-layers on laser direct ablation of transparent conductive ITO/Ag/ITO multilayers: role of effective absorption and focusing of photothermal energy", Materials, 2021, 14, 5136

61.   Seo. B.S.; Cha. Y.S.; Kim. S.T.*; Choi. W.*; "Tunable Current Duration in Triboelectric Generators via Capacitive Air-gaps", International Journal of Energy Research, 2021, 45, 5619

2020

60.  Ryu. H.S.; Kim. D.Y.; Lee. S.J.; Choi. W.; Kwon. S.J.; Han. J.H.; Cho. E.S.; "Understanding of the Mechanism for Laser Ablation-Assisted Patterning of Graphene/ITO Double Layers: Role of Effective Thermal Energy Transfer", Micromachines, 2020, 11, 821

59.  Lee. S.J.; Kang. J.Y.; Choi. W.*; Kwak. R.K.*; "Simultaneous electric production and sizing of emulsion droplets in microfluidics", Soft Matter, 2020, 16, 614

58.  Park. S.H.; Shin. D.J.; Yeo. T.H.; Seo. B.S.; Hwang. H.Y.; Lee. J.H.; Choi. W.*; "Combustion-driven synthesis route for tunable TiO2/RuO2 hybrid composites as high-performance electrode materials for supercapacitors", Chemical Engineering Journal, 2020, 384, 123269

2019

57.   Seo. B.S.; Cha. Y.S.; Kim. S.T.*; Choi. W.*; "Rational Design for Optimizing Hybrid Thermo-Triboelectric Generators Targeting Human Activities", ACS Energy Letters, 2019, 4, 2069-2074

56.  Yang. C.; Boorugu. M.;  Dopp. A.; Ren. J.; Martin. R.; Choi. W.; Lee. H.W.*;  "4D Printing Reconfigurable, Deployable and Mechanically Tunable Metamaterials", Materials Horizons, 2019, 6, 1244-1250

55.  Shin. D.J.; Hwang. H.Y.; Yeo. T.H.; Park. S.H.; Kim. T.W.; Lee. J.H.; Choi. W.*; "Sol-gel-driven combustion wave for scalable transformation of Mn(NO3)2 precursors into MnO2-X/MWCNT supercapacitor electrodes capable of electrochemical activation", Carbon, 2019, 152, 746-754

54.  Park. J.H.;Lee W.S.; Kim. I.S.; Kim. M.W.; Jo. S.J.; Kim W.; Park. H.J.; Lee. G.D.; Choi. W.; Yoon D.S.; Park. J.S.*; "Ultrasensitive Detection of Fibrinogen using Erythrocyte Membrane-Draped Electrochemical Impedance Biosensor", Sensors and Actuators B: Chemical, 2019, 293, 296-303

53.  Lee. D.; Jang. H.; Lee. B.J.*; Choi. W.*; Byon. C.*; "Internal natural convection around a sphere in a rectangular chamber", International Journal of Heat and Mass Transfer, 2019, 132, 944-951

52.  Yeo. T.H.; Lee. J.H.; Shin. D.J.; Park. S.H.; Hwang. H.Y.; Choi. W.*; "One-step fabrication of silver nanosphere-wetted carbon nanotube electrodes via electric-field-driven combustion wave for high-performance flexible supercapacitors", Journal of Materials Chemistry A, 2019, 7, 9004-9018 

51.  Jeon. D.C.; Kim. S.H.*Choi. W.*; Byon. C.*; "An experimental study on the thermal performance of cellulose-graphene-based thermal interface materials", International Journal of Heat and Mass Transfer, 2019, 132, 944-951

50.  Lee. S.J.; Cha. J.H.; Kim. K.M.;  Choi. W.*; "Dynamics of drop impact on heated metal wires: Thermally induced transition from tail to splash to jumping modes", International Journal of Heat and Mass Transfer, 2019, 131, 226-236

49.  Kang. S.G.‡; Cha. J.H.‡; Seo. K.B.; Kim. S.J.; Cha. Y.S.; Lee. H.W.; Park. S.J.; Choi. W.*; "Temperature-responsive thermal metamaterials enabled by modular design of thermally tunable unit cells", International Journal of Heat and Mass Transfer, 2019, 130, 469-482

2018 

48.  Park. T.Y.‡; Lee. S.J.‡; Cha. J.H.; Choi. W.*;  "Scalable Fabrication of Nanopores in Membranes via Thermal Annealing of Au Nanoparticles", Nanoscale, 2018, 10, 22623-22634

47.  Hwang. H.Y.; Shin. D.J.; Kim. T.W.; Park. S.H.; Yeo. T.H.; Choi. W.*; "Tunable fabrication of core-shell Ni-MnO2 hybrid foams through structure-guided combustion waves for binder-free high-performance supercapacitor electrodes", Journal of Materials Chemistry A, 2018, 6, 22998-23009

46.  Lee. S.H.‡; Lee. J.M.‡; Hwang. H.Y.; Yeo. T.H.; Lee. H.W.; Choi. W.*; "Layer-by-Layer assembled carbon nanotube-polyethyleneimine coatings inside copper-sintered heat pipes for enhanced thermal performance", Carbon, 2018, 140, 521-532

45.  Lee. S.H.; Bae. Y.G.; Yoon. K.J.; Lee. J.H.; Choi. W.; Hong. J.S.*; "Key characteristics of a hydrocarbon-fueled solid oxide fuel cell examined by local thermodynamic states", Energy Conversion and Management, 2018, 174, 565-578 

44.  Seo. B.S.; Hwang. H.Y.; Park. S.H.; Choi. W.*;  "A Simple Fabrication Route of Porous Palladium/Palladium Oxide/Carbon Nanostructures using One-Step Combustion Waves for High-Performance pH Sensors", Sensors and Actuators B: Chemical, 2018, 274, 37-46

43.  Seo. B.S.; Hwang. H.Y.; Kang. S.G.; Cha. Y.S.; Choi. W.*; "Flexible-detachable dual-output sensors of fluid temperature and dynamics based on structural design of thermoelectric materials", Nano Energy, 2018, 50, 733-743

42.  Han. D.H.; Farion. C.; Yang. C.; Scott. T.; Browe. D.;  Choi. W.; Freeman. J.W.; Lee. H.W.*; "Soft Robotic Manipulation and Locomotion with a 3D Printed Electroactive Hydrogel", ACS Applied Materials & Interfaces, 2018, 10 (21), 17512-17518

41.  Hwang. H.Y.; Lee. K.Y.; Shin. D.J.; Shin. J.H.; Kim. S.T.*; Choi. W.*; "Metal-free, Flexible Triboelectric Generator based on MWCNT Mesh Film and PDMS Layers", Applied Surface Science, 2018, 442, 693-699

40.  Shin. D.J.‡; Shin. J.H.‡; Yeo. T.H.; Hwang. H.Y.; Park. S.H.; Choi. W.*; "Scalable Synthesis of Triple-Core-Shell Nanostructures of TiO2@MnO2@C for High Performance Supercapacitors using Structure-Guided Combustion Waves", Small, 2018, 14, 1703755

39.  Hwang. H.Y.; Shin. J.H.; Lee. K.Y.*; Choi. W.*; "Facile one-pot transformation using structure-guided combustion waves of micro-nanostructured β-Bi2O3 to α-Bi2O3@C and analysis of electrochemical capacitance", Applied Surface Science, 2018, 428, 422-431

2017

38.  Yeo. T.H.; Shin. D.J.; Shin. J.H.; Hwang. H.Y.; Seo. B.S.; Lee. J.H.; Choi. W.*; "DC-field-driven combustion wave for one-step fabrication of reduced manganese oxide/multi-walled carbon nanotube hybrid nanostructures as high-performance supercapacitor electrodes", Journal of Materials Chemistry A, 2017, 5 , 24707 

37.  Shin. J.H.‡; Shin. D.J.‡; Hwang. H.Y.; Yeo. T.H.; Park. S.H.; Choi. W.*; "One-Step Transformation of MnO2 into MnO2–x@Carbon Nanostructures for High-Performance Supercapacitors using Structure-Guided Combustion Waves", Journal of Materials Chemistry A,  2017, 5, 13488

36.  Shin. D.J.‡; Seong. T.H.‡; Choi. J.H.*; Choi. W.*; "Self-Sustaining Water-Motion Sensor Platform for Continuous Monitoring of Frequency and Amplitude Dynamics", Nano Energy, 2017, 35, 179

35.   Hwang. H.Y.; Shin. D.J.; Yeo. T.H.; Choi. W.*; "Amplified Thermopower Waves in Large-Area Carbon-Nanotube/Fuel Composites via Thermal Decomposition of Sodium Nitrate", Advanced Materials Interfaces, 2017, 4(6), 1600908

34.   Lee. S.H.; Park. M.S.; Kim. H.C.; Yoon. K.J.; Son. J.W.; Lee. J.H.; Kim. B.K.; Choi. W.; Hong. J.S.*; "Thermal Conditions and Heat Transfer Characteristics of High-Temperature Solid Oxide Fuel Cells Investigated by Three-Dimensional Numerical Simulations", Energy, 2017, 120, 293-305

33.   Park. G.W.‡; Kang. S.G.‡; Lee. H.W.; Choi. W.*; "Tunable Multifunctional Thermal Metamaterials: Manipulation of Local Heat Flux via Assembly of Unit-Cell Thermal Shifters", Scientific Reports, 2017, 7, 41000

32.   Lee. S.J.; Kang. J.Y.;  Choi. W.*; Kwak. R.K.*; "Nanopore Sensing in Aqueous Two-Phase System: Simultaneous Enhancement of Signal and Translocation Time via Conformal Coating", Small, 2017, 13, 1601725  (Inside Front Cover)

31.  Yeo. T.H.; Hwang. H.Y.; Shin. D.J.; Seo. B.S.; Choi. W.*; "Thermoelectric-Pyroelectric Hybrid Energy Generation from Thermopower Waves in Core-Shell Structured Carbon Nanotube-PZT Nanocomposites", Nanotechnology, 2017, 28, 065403

2016 

30.   Shin. D.J.; Hwang. H.Y.; Yeo. T.H.; Seo. B.S.; Choi. W.*; "Thermopower Wave-driven Hybrid Supercapacitor Charging System", ACS Applied Materials & Interfaces, 2016, 8 (45), 31042-31050

29.   Lee. S.H.‡; Seo. G.H.‡; Lee. S.H.; Jeong. U.J.; Lee. S.J.; Kim. S.J.* ; Choi. W.*; "Layer-by-Layer Carbon Nanotube Coatings for Enhanced Pool Boiling Heat Transfer on Metal Surfaces", Carbon, 2016, 107, 607-618

28.   Park. G.W.‡; Lee. J.H.‡; Kang. S.G.; Kim. M.S.; Kang. S.* ; Choi. W.*; "Design Principle of Super Resolution Near-Field Structure Using Thermally Responsive Optical Phase Change Materials for Nanolithography Applications", Materials & Design, 2016, 102, 45-55

27.   Shin. J.H.; Lee. K.Y.; Yeo. T.H.; Choi. W.*; "Facile One-pot Transformation of Iron Oxides from Fe2O3 Nanoparticles to Nanostructured Fe3O4@C Core-Shell Composites via Combustion Waves", Scientific Reports, 2016, 6, 21792

26.   Lee. S.H.; Kim. H.C.; Yoon. K.J.; Son. J.W.; Lee. J.H.; Kim. B.K.; Choi. W.; Hong. J.S*; "The Effect of Fuel Utilization on Heat and Mass Transfer within Solid Oxide Fuel Cells Examined by Three-Dimensional Numerical Simulations", International Journal of Heat and Mass Transfer, 2016, 97, 77-93

25.   Lee. K.Y.; Hwang. H.Y.; Kim. T.H.; Choi. W.*; "Enhanced Photocatalytic Activity of Bismuth Precursor by Rapid Phase and Surface Transformation Using Structure-Guided Combustion Waves",  ACS Applied Materials & Interfaces, 2016, 8 (5), 3366-3375

24.   Um. J.E.; Yeo. T.H.; Choi. W.; Chae. J.S; Kim. H.S.; Kim. W.J.*; "Enhanced energy release from carbon nanotube-energetic material composites", Science of Advanced Materials, 2016, 8, 164-170

23.   Cho. E.; Park. G.W.; Lee. J.W.; Cho. S.M.; Kim T.; Kim. J.; Choi. W.*; Ohm. W.S.; Kang. S.*; "Effect of alumina composition and surface integrity in alumina/epoxy composites on the ultrasonic attenuation properties", Ultrasonics, 2016, 66, 133-139

2015

22.   Hwang. H.Y.; Lee. K.Y.; Yeo. T.H.; Choi. W.*; "Investigation of structural and chemical transitions in copper oxide microstructures produced by combustion waves in a mixture of CuO–Cu2O–Cu and fuel", Applied Surface Science, 2015, 359, 931-938

21.   Lee. K.Y.; Hwang. H.Y.; Shin. D.J.; Choi. W.*; "Manipulation of Combustion Waves in Carbon-Nanotube/Fuel Composites by Highly Reactive Mg Nanoparticles", Nanoscale, 2015, 7, 17071-17078

20.   Lee. K.Y.; Hwang. H.Y.; Choi. W.*; "Phase Transformation of Cobalt Oxide in CoxOy-ZnO Multi-Pod Nanostructures via Combustion from Thermopower Waves", Small, 2015, 11 (36), 4762-4773

19.   Yeo. T.H.; Hwang. H.Y.; Cho. Y.H.; Shin. D.J.; Choi. W.*; "Voltage Amplification of Thermopower Waves via Current Crowding at High Resistances in Self-Propagating Combustion Waves", Nanotechnology, 2015, 26, 305402

18.   Hwang. H.Y.‡; Yeo. T.H.‡; Cho. Y.H.; Shin. D.J.; Choi. W.*; "Preparation and Evaluation of Hybrid Composites of Chemical Fuel and Multi-Walled Carbon Nanotubes in the Study of Thermopower Waves", Journal of Visualized Experiments, 2015, 98, e52818

17.   Lee. K.Y.‡; Hwang. H.Y.‡; Shin. D.J.; Choi. W.*; "Enhanced Thermopower Wave via Nanowire Bonding and Grain Boundary Fusion in Combustion of Fuel/CuO-Cu2O-Cu Hybrid Composites", Journal of Materials Chemistry A, 2015, 3, 5457-5466

16.   Kim. B.Y.; Kim. H.C.; Yoon. K.J.; Lee. J.H.; Kim. B.K.; Choi. W.; Lee. J.H.; Hong. J.S*; "Reactions and Mass Transport in High Temperature Co-Electrolysis of Steam/CO2 Mixtures for Syngas Production", Journal of Power Sources, 2015, 280, 630-639

15.   Seo. G.H.; Hwang. H.Y.; Yoon. J.W.; Yeo. T.H.; Son. H.H.; Jeong U.; Jeun. G.D.; Choi. W.*; Kim. S.J.*; "Enhanced Critical Heat Flux with Single-Walled Carbon Nanotubes Bonded on Metal Surfaces", Experimental Thermal and Fluid Science, 2015,  60, 138-147

~ 2014

14.   Yeo. T.H.; Hwang. H.Y.; Lee. D.C.; Lee. K.Y.; Hong. J.S, Song, C.; Choi. W.*; "Effects of Chemical Fuel Composition on Energy Generation from Thermopower Waves", Nanotechnology, 2014, 25, 445403

13.   Hwang. H.Y.; Yeo. T.H.;  Um. J.E.; Lee. K.Y.; Kim. H.S.; Han. J.H.; Kim. W.J. ; Choi. W.*; "Investigation of Effect of the Structure of Large-Area Carbon-Nanotube/Fuel Composites on Energy Generation from Thermopower Waves", Nanoscale Research Letters, 2014, 9, 536

12.   Lee. K.Y.; Hwang. H.Y.; Choi. W.*; "Advanced Thermopower Wave in Novel ZnO Nanostructures/Fuel Composite", ACS Applied Materials & Interfaces, 2014, 6 (17), 15575-15582

11.   Choi. W.; Ulissi. Z.; Shimizu. S.; Bellisario. D.;Ellison. M.; Strano. M. S. "Diameter Dependent Ion Transport through the Interior of Single Isolated Single Walled Carbon Nanotubes", Nature Communications, 2013, 4, 2397

10.   Abrahamson. J. T.; Sempere. B.; Walsh. P. M.; Forman. J. M.; Sen. F.; Sen. S.; Mahajan. G. S.; Paulus. L. G; Choi. W.; Strano. M. S. “Excess thermopower and the theory of thermopower waves ", ACS Nano, 2013, 7 (8), 6533-6544

9.     Choi. W.*; Hong. J.* "Rapid Electromechanical Transduction on a Single-Walled Carbon Nanotube Film: Sensing Fast Mechanical Loading via Detection of the Electrical Signal Change", Industrial & Engineering Chemistry Research, 2012, 51 (45), 14714–14721

8.      Shimizu. S.; Choi. W.; Abrahamson. J. T.; Strano. M. S. "New concepts in molecular and energy transport within carbon nanotubes: Thermopower waves and stochastically resonant ion channels", Physica Status Solidi B-Basic Solid State Physics, 2011, 248 (11), 2445-2448.

7.      Abrahamson. J. T.; Song. C.; Hu. J. H.; Forman. J. H.; Mahajan. S. G.; Nair. N.; Choi. W.; Lee. EJ. Strano. M. S. "Synthesis and Energy Release of Nitrobenzene-Functionalized Single-Walled Carbon Nanotubes", Chemistry of Materials, 2011, 23 (20), 4557-4562.

6.      Abrahamson. J. T.; Choi. W.; Schonenbach, N. S.; Park. J.; Han. J. -H.; Walsh. M. P.; Kalantar-Z. K.; Strano. M. S. "Wave Front Velocity Oscillation of Carbon Nanotube-Guided Thermopower Waves:Nanoscale Alternating Current Sources", ACS Nano, 2011, 5 (1), 367-375.

5.      Choi. W.; Lee. C.Y.; Ham. M. H.; Shimizu. S.; Strano. M. S. "Dynamics of Simultaneous, Single Ion Transport through Two Single-Walled Carbon Nanotubes: observation of a three-state system", Journal of the American Chemical Society, 2011, 133 (2), 203-205.

4.      Ham. M. H.; Paulus. G. L. C.; Lee. C. Y.; Song. C.; Kalantar-Z. K.; Choi. W.; Han. J. -H.; Strano. M. S. "Evidence for High Efficiency Exciton Dissociation at the polymer/Single Walled Carbon Nanotube Interfaces in Planar Nano-Heterojunction Photovoltaics", ACS Nano 2010, 4, 6251-6259.

3.      Choi. W.; Abrahamson. J. T.; Strano. J. M.; Strano. M. S. "Carbon Nanotube-Guided Thermopower Waves", Materials Today, 2010, 13(10), 22-23.

2.      Lee. C.Y.; Choi. W.; Han, J –H.; Strano. M. S. "Coherence Resonance in Single-Walled Carbon Nanotube Ion Channel", Science, 2010, 329, 1320-1324.

1.      Choi. W.; Hong. S.; Abrahamson. J. T.; Han. J. -H.; Song. C.; Nair. N.; Baik. S.; Strano. M. S. "Chemically Driven, Carbon Nanotube-Guided Thermopower Waves", Nature Materials, 2010, 9, 423-429.