Previous Publications (~2011)

D. Kim, P. V. Pikhitsa, H. Yang and M. Choi, “Room temperature CO and H2 sensing with carbon nanoparticles”, Nanotechnology 22, 485501-8 (2011)

P. V. Pikhitsa, D. Kim, and M. Choi, “Nitrogen/argon diluted acetylene and ethylene blue flames under infrared CO2 laser irradiation”, AIP Advances 1, 032142-7 (2011)

C. G. Woo, H. Shin, C. Jeong, K. Jun, J. Lee, J. Lee, H. Lee, S. You, Y. Son, and M. Choi, “Selective Nanopatterning of Protein via Ion-Induced Focusing and Its Application to Metal-Enhanced Fluorescence”, Small 7, 1790-1794 (2011)

H. Lee, S. You, P. V. Pikhitsa, J. Kim, S. Kwon, C. G. Woo and M. Choi, “Three-Dimensional Assembly of Nanoparticles from Charged Aerosols”, Nano Letters 11, 119-124 (2011)

A. Y. Ilyushechkin, I. E. Agranovski., I. S. Altman and M. Choi, “Effect of MgO nanoparticles embedded into Bi-2212/Ag tapes on the microstructure and superconducting properties”, Materials Science and Engineering B 167, 60-64 (2010)

S. B. Lee, G. N. Bae, Y. M. Lee, K. C. Moon and M. Choi, “Correlation between Light Intensity and Ozone Formation for Photochemical Smog in Urban Air of Seoul”, Aerosol And Air Quality Research 10, 540-549 (2010)

J. E. Kim, H. T. Lim, A. Minai-Tehrani, J. T. Kwon, J. Y. Shin, C. G. Woo, M. Choi, J. Baek, D. H. Jeong, Y. C. Ha, C. H. Chae, K. S. Song, K. H. Ahn, J. H. Lee, H. J. Sung, I. J. Yu, G. R. Beck Jr. and M. H. Cho, “Toxicity and Clearance of Intratracheally Administered Multiwalled Carbon Nanotubes from Murine Lung”, Journal Of Toxicology And Environmental Health-Part A-Current Issues 73, 1530-1543 (2010)

S. You, K. Han, H. Kim, C. G. Woo, H. Lee, W. Nam, C. Jeong and M. Choi, “High resolution, parallel patterning of nanoparticles via an ion-induced focusing mask”, Small 6, 2146-2152 (2010)

S. Yang, Y. H. Jang, C. H. Kim, C. Hwang, J. Lee, S. Chae, S. Jung and M. Choi, “A flame metal combustion method for production of nanoparticles”, Powder Technology 197, 170-176 (2010)

J. Lee, J. Olfert, I. S. Altman and M. Choi, “Determination of Particle Temperatures in a Silica-Generating Counterflow Flame via Flame Emission Measurement”, International Journal of Heat and Mass Transfer 53, 564-567 (2010)

S. Sheen, S. Yang, K. Jun and M. Choi, “One-step flame method for the synthesis of coated composite nanoparticles”, Journal of Nanoparticle Research 11, 1767-1775 (2009)

P. V. Pikhitsa, M. Choi, H. J. Kim and S. H. Ahn, “Auxetic lattice of multipods”, Physica Status Solidi B-Basic Solid State Physics 246, 2098-2101 (2009)

H. Lee, S. You, C. G. Woo, K. Lim, K. Jun and M. Choi, “Focused Patterning of Nanoparticles by Controlling Electric Field Induced Particle Motion”, Applied Physics Letters 94, 053104 (2009)

I. S. Altman, I. E. Agranovskii, M. Choi and V. A. Zagainov , “To the Theory of Homogeneous Nucleation: the Nonisothermality of the Szilard Model”, Russian Journal of Physical Chemistry A 83, 63-70 (2009)

I. S. Altman, I. E. Agranovskii, M. Choi and V. A. Zagainov, “To the Theory of Homogeneous Nucleation: Cluster Energy”, Russian Journal of Physical Chemistry A 82, 2097-2102 (2008)

J. Lee, I. Altman and M. Choi, “Design of thermophoretic probe for precise particle sampling”, Journal of Aerosol Science 39, 418-431 (2008)

A. G. Nasibulin, A. Ollikainen, A. S. Anisimov, D. P. Brown, P. V. Pikhitsa, S. Holopainen, J. S. Penttila, P. Helisto, J. Ruokolainen, H. Jiang, M. Choi and E. I. Kauppinen, “Integration of single-walled carbon nanotubes into polymer films by thermo-compression”, Chemical Engineering Journal 136, 409-413 (2008)

J. T. Kwon, S. K. Hwang, H. Jin, D. S. Kim, A. Mina-Tehrani, H. J. Yoon, M. Choi, T. J. Yoon, D. Y. Han, Y. W. Kang, B. I. Yoon, J. K. Lee and M. H. Cho, “Body distribution of inhaled fluorescent magnetic nanoparticles in the mice”, Journal of Occupational Health 50, 1-6 (2008)

Y. J. Kim, S. Lee, P. V. Pikhitsa and M. Choi, “Laser induced transition from soot generation to shell shaped carbon nanoparticles in an acetylene flow: aerosol characterization”, Journal of Mechanical Science and Technology 22, 134-140 (2008)

L. Zhao, M. Choi, H. Kim and S. Hong, “The Effect of Multiwalled Carbon Nanotube Doping on the CO gas Sensitivity of SnO2-based Nanomaterials”, Nanotechnology 18, 445501-445505 (2007)

G. H. Ko, K. Heo, K. Lee, D. S. Kim, C. Kim, Y. Sohn and M. Choi, “An Experimental Study on the Pressure Drop of Nanofluids Containing Carbon Nanotubes in a Horizontal Tube”, International Journal of Heat and Mass Transfer 50, 4749-4753 (2007)

S. You and M. Choi, “Numerical Simulation of Microscopic Motion and Deposition of Nanoparticles via Electrodynamic Focusing”, Journal of Aerosol Science 38, 1140-1149 (2007)

A. G. Nasibulin, A. S. Anisimov, P. V. Pikhitsa, H. Jiang, D. P. Brown, M. Choi and E. I. Kauppinen, “Investigations of NanoBud formation” Chemical Physics Letters 446, 109-114 (2007)

P. V. Pikhitsa, M. Choi, S. Yang, Y. J. Kim, H. Jang and J. H. Park, “Fast fragmentation of metal oxide nanoparticles via reduction in oxy-hydrogen flame”, Applied Physics Letters 90, 163106 2 (2007).

S. J. Lee, Y. Son, C. H. Kim and M. Choi, “Fabrication of Micro Patterned Fibronection for Studying Adhesion and Alignment Behavior of Human Dermal Fibroblasts”, Macromolecular Research 15, 348-356 (2007)

A. G. Nasibulin, P. V. Pikhitsa, H. Jiang, D. P. Brown, A. V. Krasheninnikov, A. S. Anisimov, P. Queipo, A. Moisala, D. Gonzalez, G. Lientschnig, A. Hassanien, S. D. Shandakov, G. Lolli, D. E. Resasco, M. Choi, D. Tomanek and E. I. Kauppine, “A Novel Hybrid Carbon Material”, Nature Nanotechnology 2, 156-161 (2007)

D. S. Kim, D. S. Lee, C. G. Woo and M. Choi, “Control of Nanoparticle Charge via Condensation Magnification”, Journal of Aerosol Science 37, 1876-1882 (2006)

A. G. Nasibulin, P. V. Pikhitsa, P. Queipo, M. Choi and E. I. Kauppinen, “Investigations of mechanism of carbon nanotube growth”, Physica Status Solidi B-Basic Solid State Physics 243, 3095-3100 (2006)

H. Kim, J. Kim, H. Yang, J. Suh, T. Kim, B. Han, S. Kim, D. S. Kim, P. V. Pikhitsa and M. Choi, “Parallel Patterning of Nanoparticles via Electrodynamic Focusing of Charged Aerosols”, Nature Nanotechnology 1, 117-121 (2006)

C. Hong, D. S. Kim, and M. Choi, “Jet-assisted Aerosol Chemical Vapor Deposition Method for Multi-component Particle Deposition”, Chemical Vapor Deposition 12, 627-630 (2006)

J. S. Suh, C. S. Kim, T. O. Kim and M. Choi, “Structural and chemical characterization of SiO2/TiO2 multicomponent particles during aerosol formation in a coflow diffusion flame”, Advanced Powder Technology 17, 495-508 (2006)

C. H. Kim, S. J. Lee, Y. J. Gin, M. Choi and Y. Son, “Extracellular matrix patterning using E-beam lithography and micro-contact printing for the analysis of cellular signaling at the focal contact”, Tissue Engineering 12, 1071-1072 (2006)

H. Q. Xie, P. V. Pikhitsa, Y. J. Kim, W. Youn, I. S. Altman, J. G. Nam, S. J. Lee and M. Choi, “Entropically driven self-assembling of softened multi-walled carbon nanotubes into a reversibly water dispersible coherent solid”, Journal of Applied Physics 99, 104313 (2006)

I. E. Agranovski, A. Y. Ilyishechkin, I. S. Altman, T. E. Bostrom and M. Choi, “Methods of introduction of MgO nanoparticles into Bi-2212/Ag tapes”, Physica C 434, 115-120 (2006)

J. K. Kim, J. W. Park, H. Yang, M. Choi, J. H. Choi and K. Y. Suh, “Low-pressure detachment nanolithography”, Nanotechnology 17, 940-946 (2006)

M. Choi, “Gas Phase Synthesis of Nanoparticles and Their Growth Control”, Thermal Science & Engineering 13, 7-11 (2005)

L. Boskovic, I. S. Altman, I. E. Agranovski, R. D. Braddock, T. Myojo and M. Choi, “Influence of Nanoparticle Shape on Filtration Processes”, Aerosol Science and Technology 39, 1184-1190 (2005)

I. S. Altman and M. Choi, “Analysis of mechanism of critical transition in irrated acetylene that leads to generation of shell-shaped carbon nanoparticles”, Carbon 43, 2693-2700 (2005)

J. S. Suh, B. W. Han, D. S. Kim and M. Choi, “A Method for Enhanced Charging of Nanoparticles via Condensation Magnification”, Journal of Aerosol Science 36, 1183-1193 (2005)

A. Iluyshechkin, I. E Agranovski, I. S Altman, N. Racha and M. Choi, “Distribution of MgO nanoparticles in Bi-2212/Ag tapes and their effect on the superconducting properties”, Superconductor Science and Technology 18, 1123-1128 (2005)

I. S. Altman, I. E. Agranovski, and M. Choi, “Mechanism of nanoparticle agglomeration during the combustion synthesis”, Applied Physics Letters 87, 053104 (2005)

J. Suh, B. Han, K. Okuyama and M. Choi, “Highly Charging of Nanoparticles through Electrospry of Nanoparticle Suspension”, Journal of Colloid Interface Science 287, 135-140 (2005)

P. V. Pikhitsa, Y. J. Kim, M. W. Kim, S. Yang, T. W. Noh, and M. Choi, “Optical manifestations of the condensation of topological defects in continuous layer multishell carbon nanoparticles”, Physical Review B 71, 073402-1~073402-4 (2005)

J. I. Kim, J. Y. Hwang, J. Lee, M. Choi and S. H. Chung, “Numerical and Experimental Study on Silica Generating Counterflow Diffusion Flames”, International Journal of Heat and Mass Transfer 48, 75-81 (2005)

J. I. Jeong and M. Choi, “A Bimodal Particle Dynamics Model Considering Coagulation, Coalescence and Surface Growth and Its Application to the Growth of Titania Aggregates”, Journal of Colloid and Interface Science 281, 351-359 (2005)

I. S. Altman, Y. H. Jang, I. E. Agranovski, S. Yang and M. Choi, “Stabilization of Spinel Structure during Combustion Synthesis of Iron Nanooxides”, Journal of Nanoparticle Research 6, 633-637 (2004)

I. S. Altman, I. E. Agranovski and M. Choi, “Nanoparticle Generation: The Concept of Stagnation Size Region for Condensation Growth”, Physical Review E 70, 062603-1~062603-3 (2004)

M. Choi, I. S. Altman, Y. J. Kim, P. V. Pikhitsa, S. H. Lee, G. S, Park, T. Jeong and J. B. Yoo, “Formation of Shell-Shaped Carbon Nanoparticles through Critical Transition in Irradiated Acetylene”, Advanced Materials 16, 1721-1725 (2004)

J. I. Jeong and M. Choi, “A Bimodal Moment Model for the Simulation of Particle Growth”, Journal of Aerosol Science 35, 1071-1090 (2004)

I. S. Altman, P. V. Pikhitsa, and M. Choi, “Two-Process Model of Electron Field Emission from Nanocarbons Temperature Effect”, Journal of Applied Physics 96, 3491-3493 (2004)

I. S. Altman, I. E. Agranovski, and M. Choi, “On nanoparticle surface growth: MgO nanoparticle formation during a Mg particle combustion”, Applied Physics Letters 84, 5130-5132 (2004)

I. S. Altman, P. V. Pikhitsa, and M. Choi, “Electron field emission from nanocarbons: A two-process model”, Applied Physics Letters 84, 1126-1128 (2004)

M. Kang, H. Kim, B. Han, J. Suh, J. Park and M. Choi, “Nanoparticle pattern deposition from gas phase onto charged flat surface”, Microelectronic Engineering 71, 229-236 (2004)

S. Yang, J. H. Yi, S. Son, J. Jang, I. S. Altman, P. V. Pikhitsa and M. Choi, “Fragmentation of Fe2O3 nanoparticles driven by a phase transition in a flame and their magnetic properties”, Applied Physics Letters 83, 4842-4844 (2003)

I. S. Altman, P. V. Pikhitsa, M. Choi, H. J. Song, A. G. Nasibulin, and E. I. Kauppi, “Zero-phonon lines in the photoluminescence spectra of MgO: Mn2+ nanocrystals”, Physical Review B 68, 125324-1~125324-6 (2003)

H. W. Kim and M. Choi, “In situ line measurement of mean aggregate size and fractal dimension along the flame by planar laser light scattering”, J. Aerosol Science 34, 1633-1645 (2003)

I. S. Altman, P. V. Pikhitsa, M. Choi, J. I. Jeong, H. J. Song, I. E. Agranovski, and T. E. Bostrom, “Line spectra from doped nano-oxide: A design for nanooptics”, Applied Physics Letters 83, 3689-3691 (2003)

H. Xie, H. Lee, W. Youn and M. Choi, “Nano fluids containing multi-walled carbon nanotubes and their enhanced thermal conductivities”, J. Applied Physics 94, 4967-4971 (2003)

B. Han, M. Shimada, K. Okuyama, and M. Choi, “Classification of Monodisperse aerosol Particles Using an Adjustable Soft X-ray Charger”, Powder Technology 135, 336-344 (2003)

H. J. Kim, J. I. Jeong, Y. Park, Y. Yoon and M. Choi, “Modeling of generation and growth of non-spherical nanoparticles in a co-flow flame”, Journal of Nanoparticle Research 5, 237-246 (2003)

J. I. Jeong and M. Choi, “A Simple Bimodal Model for the Evolution of non-spherical particles Undergoing Nucleation, Coagulation and Coalescence”, J. Aerosol Science 34, 965-976 (2003)

B. Han, I. W. Lenggoro, M. Choi and K. Okuyama, “Measurement of Cluster Ions and Residue Nanoparticles from Water Samples with an Electrospray/Differential Mobility Analyzer”, Analytical Sciences 19, 843-851 (2003)

K. Nakaso, B. Han, K. H. Ahn, M. Choi and K. Okuyama, “Synthesis of non-agglomerated nanoparticleFs by an Electrospray Assisted Chemical vapor Deposition Method”, J. Aerosol Science 34, 869-881 (2003)

J. I. Jeong and M. Choi, “Analysis of Non-Spherical Polydisperse Particle Growth in a Two-dimensional Tubular Reactor”, J. of Aerosol Science 34, 713-732 (2003)

I. S. Altman, P. V. Pikhitsa, Y. J. Kim and M. Choi, “Magnetism of adsorbed oxygen at low coverage”, Physical Review B 67, 1-6 (2003)

B. Han, M. Shimada, M. Choi and K. Okuyama, “Unipolar charging of nanosized aerosol particles using soft X-ray photoionization”, Aerosol Science and Technology 37, 330-341 (2003)

A. G. Nasibulin, I. S. Altman, E. I. Kauppinen, “Semiempirical dynamic phase diagrams of nanocrystalline products during copper(II) acetylacetonate vapor decomposition”, Chemical Physics Letters 367, 771-777 (2003)

J. K. Song and M. Choi, “Stability of Elongated and Compact Types of Structures in SiO2 Nanoparticles”, Physical Review B 65, 241-302 (2002)

J. H. Yi, S. Son and M. Choi, “Superparamagnetic Iron (III) Oxide Nanoparticles Synthesized by Combustion Flame Process”, Key Engineering Materials 206, 135-138 (2002)

M. Choi, C. K. Hong and K. H. Lee, “Jet Assisted Aerosol Chemical Vapor Deposition for Optical Fiber Synthesis” Aerosol Science and Technology 36, 300-307 (2002)

H. S. Shin, J. H. Yi, J. G. Baek and M. Choi, “Preparation and Characterization of SiO2-B2O3-P2O5 Particles and Films Generated by Flame Hydrolysis Deposition for Planar Light-Wave Circuits”, J. of Materials Research 17, 315-322 (2002)

D. Lee and M. Choi, “Coalescence enhanced synthesis of nanoparticles to control size, morphology and crystalline phase at high concentrations”, J. of Aerosol Science 33, 1-16 (2002)

D. Lee, S. Yang, and M. Choi, “Controlled formation of nanoparticles utilizing laser irradiation in a flame and their characteristics”, Applied Physics Letters 79, 2459-2461 (2001)

I. S. Altman, D. Lee, J. Song, and M. Choi, “Experimental estimate of energy accommodation coefficient at high temperatures“, Phys. Rev. E 64, 052202 (2001)

B. W. Lee, S. Oh, and M. Choi, “Simulation of Growth of Non-spherical Silica Nanoparticles in a Premixed Flat Flame”, Aerosol Science and Technology 35, 978-989 (2001)

K. H. Ahn, C. H. Jung, M. Choi, and J. S. Lee, “Particle Sampling and Real Time Size Distribution Measurement in H2/O2/TEOS Diffusion Flame”, J. of Nanoparticle Research 3, 161-170 (2001)

M. Choi, “Gas Phase Synthesis and Control of Nanoparticles : Researches in Korea”, J. of Nanoparticle Research 3, 201-211 (2001)

I. S. Altman, D. Lee, J. D. Chung, J. Song, and M. Choi, “Light Absorption of Silica Nanoparticles Generated in Flame”, Physical Review B 63, 161402 (2001)

K. H. Ahn, S. H. Sohn, C. H. Jung, and M. Choi, “In Situ Measurement of Nano Particle Size Distribution and Charge Characteristics in H2/O2/TEOS Diffusion Flame”, Scripta Materialia 44, 1889-1892 (2001)

J. I. Jeong and M. Choi, “A Sectional Method for Analysis of Growth of Polydisperse Non-spherical Particles Undergoing Coagulation and Coalescence”, Journal of Aerosol Science 32, 565-582 (2001)

J. D. Chung, J. S. Lee, M. Choi and H. Yoo, “A Refined Similarity Solution for the Multicomponent Alloy Solidification”, International Journal of Heat and Mass Transfer 44, 2483-2492 (2001)

J. Y. Hwang, Y. S. Gil, J. I. Kim, M. Choi, and S. H. Chung, “Measurements of Temperature and OH Radical Distributions in Silica Generating Flames Using CARS and PLIF”, Journal of Aerosol Science 32, 601-613 (2001)

B. W. Lee, J. I. Jeong, J. Y. Hwang, M. Choi and S. H. Chung, “Analysis of Growth of Non-spherical silica Particles in a Counterflow Diffusion Flame Considering Chemical Reactions, Coagulation and Coalescence”, Journal of Aerosol Science 32, No.2, 165-185 (2001)

K. S. Park, M. Choi, H. J. Cho and J. D. Chung, “Analysis of Radiative Heat Transfer and Mass Transfer During Multi-wafer Low Pressure Chemical Vapor Deposition Process”, Journal of Electrochemical Society 147, 4554-4561 (2000)

D. Lee and M. Choi, “Control of Size and Morphology of Nano Particles Using CO2 Laser During Flame Synthesis”, Journal of Aerosol Science 31, 1145-1163 (2000)

K. S. Park, M. Choi and J. D. Chung, “Unsteady Heat and Mass Transfer on the Codeposition of SiO2/GeO2 During the Modified Chemical Vapor Deposition Process”, International Journal of Heat and Mass Transfer 43, 3209-3217 (2000)

J. Cho and M. Choi, “Determination of Number Density, Size and Morphology of Aggregates in Coflow Diffusion Flames Using Light Scattering and Local Sampling”, Journal of Aerosol Science 31, 1077-1095 (2000)

M. Choi, H. S. Yoo, G. Yang, J. S. Lee, and D. K. Sohn, “Measurements of Impinging Jet Flow and Heat Transfer on a Semi-Circular Concave Surface”, International Journal of Heat and Mass Transfer 43, 1811-1822 (2000)

K. H. Lee, M. Choi and J. S. Lee, “Effect of Radiative Transfer on the Thermophoretic Particle Deposition around a Circular Cylinder in a Uniform Cross Flow”, Numerical Heat Transfer Part A, 19-35 (2000)

K. S. Park, B. W. Lee and M. Choi, “An Analysis of Aerosol Dynamics in the Modified Chemical Vapor Deposition”, Aerosol Science and Technology 31, 258-274 (1999)

C. H. Jung, K. H. Lee, M. Choi and J. S. Lee, “Analysis of Particle Deposition and Radiative Heat Transfer around a Cylinder in a Cross Flow”, International Journal of Transport Phenomena 1, 191-203 (1999)

M. Choi, J. Cho, J. Lee and H. W. Kim, “Measurements of Silica Aggregate Particle Growth Using Light Scattering and Thermophoretic Sampling in a Coflow Diffusion Flame”, J. of Nanoparticle Research 1, 169-183 (1999)

21. G. Yang, M. Choi and J. S. Lee, “An Experimental Study of Slot Jet Impingement Cooling on Concave Surface : Effects of Nozzle Configuration and Curvature”, Int. J. of Heat and Mass Transfer 42, 2199-2209 (1999)

K. S. Park, and M. Choi, “Analysis of Unsteady Heat and Mass Transfer during the Modified Chemical Vapor Deposition Process”, ASME J. Heat Transfer 120, 858-864 (1998)

J. Cho, J. Kim and M. Choi, “An Experimental Study of Heat Transfer and Particle Deposition during Outside Vapor Deposition Process”, International Journal of Heat and Mass Transfer 41, 435-445 (1998)

B. W. Lee, K. S. Park and M. Choi, “An Analysis of Multicomponent Aerosol Dynamics for the Modified Chemical Vapor Deposition Process”, Journal of Aerosol Science 29, S75-S76 (1998)

K. S. Park and M. Choi, “Analysis of Heat and Mass Transfer during Multi-wafer Low Pressure Chemical Vapor Deposition Process”, International Heat Transfer Conference 5, 139-144 (1998)

C. Cho, J. Hwang and M. Choi, “Deposition of Polydisperse Particles in a Falkner-Skan Wedge Flow”, Journal of Aerosol Science 27, 249-261 (1996)

K. H. Lee, J. S. Lee and M. Choi, “Parametric Analysis of Radiative-Convective Heat Transfer about a Circular Cylinder in a Crossflow Using the Finite Volume Radiation Solution Method”, Numerical Heat Transfer Part A 29, 181-196 (1996)

J. Cho and M. Choi, “An Experimental Study of Heat Transfer and Particle Deposition for the Modified Chemical Vapor Deposition”, ASME J. Heat Transfer 117, 1036-1041 (1995)

M. Choi, K. S. Park and J. Cho, “Modelling of Chemical Vapor Deposition for Optical Fiber Manufacture,” Optical and Quantum Electronics 27, 327-335 (1995)

M .Choi, Y. Song and S. H. Kang, “Conjugate Heat Transfer and Particle Deposition in Outside Vapor Deposition Process”, Numerical Heat Transfer Part A 28, 39-54 (1995)

K. S. Park and M. Choi, “Conjugate Heat Transfer and Particle Deposition in the Modified Chemical vapor Deposition : Effects of Torch Speed and Solid Layer”, International J. of Heat and Mass Transfer 37, 1593-1603 (1994)

M. Choi and K. S. Park, “Effects of Annular Jet in Inside Vapor Deposition with Applications to Optical Fiber Manufacture”, Heat Transfer 7, 209-214 (1994)

Y. T. Lin, M. Choi and R. Greif, “An Analysis of the Effect of the Solid Layer for the Modified Chemical Vapor Deposition”, Warme-und Stoffubertragung (Thermo- and fluid dynamics) 28, 169-176 (1993)

Y. T. Lin, M. Choi and R. Greif, “A Three Dimensional Analysis of Particle Deposition for the Modified Chemical Vapor Deposition”, ASME J. of Heat Transfer 114, 735-742 (1992)

Y. T. Lin, M. Choi and R. Greif. “A Three Dimensional Analysis of the Flow and Heat Transfer for the Modified Chemical Vapor Deposition Process Including Buoyancy, Variable Properties and Tube Rotation” ASME J. Heat Transfer 113, 400-406 (1991)

M. Choi, “A Study of Heat Transfer for Single and Double Layer Inclined Synchrotron Radiation Absorbers”, Warme-und Stoffubertragung-Thermo and Fluid Dynamics 26, 109-119 (1991)

M. Choi, Y. T. Lin and R. Greif. “Analysis of Buoyancy and Tube Rotation Relative to the Modified Chemical Vapor Deposition Process”, ASME J. of Heat Transfer 112, 1063-1069 (1990)

M. Choi, R. Greif and H. R. Baum. “A Study of Heat Transfer and Particle Motion Relative to the Modified Chemical Vapor Deposition Process”, ASME J. of Heat Transfer 111, 1031-1037 (1989)

M. Choi, H. R. Baum and R. Greif. “The Heat Transfer Problem for the Modified Chemical Vapor Deposition Process”, ASME J. of Heat Transfer 109, 642-646 (1987)

M. Choi, R. Greif and M. Salcudean. “A Study of Heat Transfer during Arc Welding with Applications to Pure Metals or Alloys and Low or High Boiling Temperature Materials”, Numerical Heat Transfer 11, 477-489 (1987)

M. Salcudean, M. Choi and R. Greif. “A Study of Heat Transfer during Arc Welding”, Int. J. of Heat and Mass Trasfer 29, 215-225 (1986)