1 Hayakawa, "“Ultrafine Powdersof TiN and AlN Produced by a Reactive Gas Evaporation Techniquewith Electron Beam Heating" 265-269, 1982
2 Ulrich, "“Theory of Particle Formation and Growth inOxide Synthesis Flames" 47-57, 1971
3 Hahn, "“The Production of Nanocrystal-Line Powders by Magnetron Sputtering" 1113-1115, 1990
4 Saunders, "“Synthesis ofLuminescent Silicon Clusters by Spark Ablation" 1549-1551, 1993
5 Y, "“Synthesis of Ultrafine Particles and Thin Films of BaFe12O19 bythe Spray-ICP Technique" syo : 591-596, 1994
6 Cannon, "“Sinterable Ceramic Powders from Laser-driven Reactions:II" 330-335, 1982
7 Wu, "“Onset of Runaway Nucleation inAerosol Reactors" 1365-1371, 1987
8 Chow, "“Nanometer-sizeFiber Composite Synthesis by Laser-induced Reactions" 3304-3308, 1989
9 Chiu, "“Modelling ParticleFormation and Growth in a Plasma Synthesis Reactor" 145-157, 1988
10 Kim, "“Manufacture of Optical WaveguidePreforms by Modified Chemical Vapor Deposition" 912-921, 1988
11 A, "“Magnetic Properties of Eerromagnetic Metal Fine Particles Preparedby Evaporation in Argon Gas" 707-711, 1965
12 M, "“Laser Synthesis of Ultrafine Powders" 13-17, 1987
13 H. G, "“Generation of MonodisperseAg- and NaCl-aerosol with Particle Diameters between 2and 300 nm" 113-126, 1983
14 Bowles, "“Generation of Molecular Clusters of Controlled Size" 1 117-3 124, 1981
15 Young, "“Generation and Behavior of FineParticles in Thermal Plasmas-A review" 1-37, 1985
16 Yamada, "“Formation Mechanism ofLarge Clusters from Vaporized Solid Material" 2463-2468, 1987
17 Wood, "“Characterization of Torch-deposited Silica for Light-Guide Preforms" 299-304, 1988
18 A, "“AverageSize and Rutile Content of TiO2 Particles Produced by Oxidationof TiCl4 without Additives in Aerosol Reactors" 94-96, 1989
19 Alexandrescu, R, "TiO2 Nanosized Powdersby TiCl4 Laser Pyrolysis" 15 (15): 537-545, 2004
20 Hong, S. H, "Thermal Plasma and Material Process Technology" 7 (7): 27-34, 1998
21 Lee, S. G, "The Role of Salt in NanoparticleGeneration by Salt-assisted Aerosol Method: MicrostructuralChanges" 455 (455): 138-147, 2007
22 Chae, B. S, "The Effects of Process Variables inPreparing Ultrafine TiO2 Particles by a Diffusion Flame Reactor" 37 (37): 821-827, 1999
23 Kim, K.-S, "The Changes in Particle Charge Distribution duringRapid Growth of Particles in the Plasma Reactor" 257 (257): 195-207, 2003
24 Barankin, M. D, "Synthesisof Nanoparticles in an Atmospheric Pressure Glow Discharge" 8 (8): 511-517, 2006
25 Jang, H. D, "Synthesis ofSiO2 Nanoparticles from Sprayed Droplets of Tetraethylorthosilicateby the Flame Spray Pyrolysis" 6 (6): e110-e113, 2006
26 Kruis, F. E, "Synthesis of SemiconductingNanoparticles" 27 (27): S165-S166, 1996
27 Nakasoa, K, "Synthesis of Non-agglomerated Nanoparticles by an ElectrosprayAssisted Chemical Vapor Deposition (ES-CVD) Method" 34 (34): 869-881, 2003
28 Kruis, F. E, "Synthesis of Nanoparticlesin the Gas Phase for Electric, Optical and Magnetic Applications-A Review" 29 (29): 511-535, 1998
29 Jang, D, "Synthesis of Nanoparticles by Pulsed LaserAblation of Consolidated Metal Microparticles" 79 (79): 1985-1988, 2004
30 Cao, J, "Synthesis of Hollow Nanoparticlesby Plasma Polymerization" 6 (6): 447-455, 2004
31 Rhee, "Synthesis of Ceramic Powders by HighTemperature Chemical Reactions" 309-317, 1988
32 Cui, Z, "Structures and Properties of Nano-particles Prepared by HydrogenArc Plasma Method" 318 (318): 76-82, 1998
33 Jung, C. H, "Size Distribution ofPolydispersed Aerosols during Condensation in the ContinuumRegion: Analytical Approach Using the Moment Method" 37 (37): 1400-1406, 2006
34 Choi, M, "Research in Korea on Gas Phase Synthesis and Controlof Nanoparticles" 3 (3): 201-211, 2001
35 Byeon, J. H, "Removal of Volatile Organic Compounds by SparkGenerated Carbon Aerosol Particles" 44 (44): 2106-2108, 2006
36 Seo, J. H, "Radio Frequency Thermal Plasma Treatment forSize Reduction and Spheroidization of Glass Powders Used inCeramic Electronic Devices" 90 (90): 1717-1722, 2007
37 Kim, D.-J, "Quantitative Analysis on the Growthof Negative Ions in Pulse Modulated SiH4 Plasmas" 44 (44): 7907-7915, 2005
38 McCurdy, P. R, "Pulsed and ContinuousWave Plasma Deposition of Amorphous, HydrogenatedSilicon Carbide from SiH4/CH4 Plasmas" 17 (17): 2475-2484, 1999
39 Oh, S.-M, "Production of Ultrafine TitaniumDioxide by DC Plasma Jet" 386 (386): 233-238, 2001
40 Kim, D.-J, "Production of MonodisperseNanoparticles and Application of Discrete-MonodisperseModel in Plasma Reactors" 5 (5): 211-223, 2003
41 Lenggoro, I. W, "Preparation of ZnS Nanoparticles by ElectrosprayPyrolysis" 31 (31): 121-136, 2000
42 Abdullah, M, "Preparation of Oxide Particles with Ordered Macropores byColloidal Templating and Spray Pyrolysis" 52 (52): 5151-5156, 2004
43 Matsui, I, "Preparation of Magnetic Nanoparticles by PulsedPlasma Chemical Vapor Synthesis" 8 (8): 429-443, 2006
44 Gotoh, K, "Power TechnologyHandbook" Marcel Dekker, New York 1997
45 Kim, K.-H, "Plasma Equipmentsfor Nanotechnology Process" 8 (8): 56-71, 2005
46 Shiratani, M, "Particle GrowthKinetics in Silane RF Discharges" 38 (38): 4542-4549, 1999
47 Fages, J, "Particle Generation for Pharmaceutical ApplicationsUsing Ssupercritical Fluid Technology" 141 (141): 219-226, 2004
48 Pratsinis, S. E, "Particle Formation in Gases : aReview" 88 (88): 267-273, 1996
49 Jung, J, "Particle Design Using Supercritical Fluids:Literature and Patent Survey" 20 (20): 179-219, 2001
50 Wang, W.-N, "One-step Synthesis of Titanium Oxide Nanoparticles bySpray Pyrolysis of Organic Precursors" 12 (12): 194-202, 2005
51 Guo, Z, "One-step Synthesis of Porous PalladiumNanostructures by H2+He Arc Plasma Method" 7 (7): 95-99, 2005
52 Kim, K.-S, "Numerical Analysis onParticle Coating by the Pulsed Plasma Process" 61 (61): 3278-3289, 2006
53 Xia, B, "Novel Route toNanoparticle Synthesis by Salt-assisted Aerosol Decomposition" 13 (13): 1579-1582, 2001
54 Wang, W.-N, "Nickeland Nickel Oxide Nanoparticles Prepared from Nickel NitrateHexahydrate by a Low Pressure Spray Pyrolysis" 111 (111): 69-76, 2004
55 Mueller, R, "Nanoparticle Synthesisat High Production Rates by Flame Spray Pyrolysis" 58 (58): 1969-1976, 2003
56 Kang, D.-J, "Morphologies andProperties of NiO Particles Prepared from NiSO46H2O andNi(NO3)26H2O by Spray Pyrolysis" 40 (40): 6283-6289, 2005
57 Tang, K, "Monodisperse Electrosprays of LowElectric Conductivity Liquids in the Cone-jet Mode" 184 (184): 500-511, 1996
58 Kim, K.-S, "Modeling of Rapid Particle Growthby Coagulation in Silane Plasma Reactor" 87 (87): 2691-2699, 2000
59 Hoder, T, "Microwave PlasmaUsed for α-Fe Nanoparticles Synthesis" 300-305, 2005
60 Rodrigues, M, "Microcomposites Theophylline/hydrogenated Palm Oil from a PGSS Process for ControlledDrug Delivery Systems" 29 (29): 175-184, 2004
61 Bayazitoglu, Y, "Metal VaporCondensation in a Converging N" 7 (7): 789-803, 1996
62 Noel, S, "Investigation of NanoparticleGeneration during Femtosecond Laser Ablation of Metals" 253 (253): 6310-6315, 2007
63 Dammer, O, "Interaction of High-power Laser Pulses with MonodisperseGold Particles" 140 (140): 138-146, 2007
64 Ahn, K. H, "In Situ Measurementof Nano Particle Size Distribution and Charge Characteristicsin H2/O2/TEOS Diffusion Flame" 44 (44): 1889-1892, 2001
65 Madan, A, "High Deposition Rate Amorphousand Polycrystalline Silicon Materials Using the Pulsed Plasma andHot-Wire CVD Technique" 55 (55): 127-139, 1998
66 Kim, K, "Generation of Si NanoparticlesUsing Plasma Technology for Novel Device and EnergyStorage Application" Nov. Seattle, Washington, USA 2007
67 Kim, H. J, "Generation of Model Diesel Particles by Spark Dischargeand Hydrocarbon Condensation" 20 (20): 1972-1979, 2006
68 Wegner, K, "Gas-phase Synthesis of Nanoparticles:Scale-up and Design of Flame Reactors" 150 (150): 117-122, 2005
69 Kim, M. C, "Formationand Growth of Atmospheric Aerosols by Water Vapor Reactionsin an Indoor Smog Chamber" 20 (20): 161-174, 2004
70 Height, M. J, "Flame Synthesis of Single-walled Carbon Nanotubes" 42 (42): 2295-2307, 2004
71 Strobel, R, "Flame Spray Synthesis of Pd/Al2O3 Catalysts and Their Behaviorin Enantioselective Hydrogenation" 222 (222): 307-314, 2004
72 Kim. D. S, "Fine Particle Technology" Daewoong,Se 2001
73 Cole, R. B, "Electrospray Ionization Mass Spectroscopy" Wiley-Interscience 1997
74 Wilhelm, O, "Electrospray Evaporationand Deposition" 34 (34): 815-836, 2003
75 Park, H, "Effects of a Quard Plate onthe Characteristics of an Electrospray in the Cone-jet Mode" 35 (35): 1295-1312, 2004
76 Pack, J. W, "Effects of Pressure and Temperature on the Kinetics of L-LactidePolymerization in Supercritical Chlorodifluoromethane" 37 (37): 3564-3568, 2004
77 Nakaso, K, "Effect of Reaction Temperature on CVD-made TiO2 PrimaryParticle Diameter" 58 (58): 3327-3335, 2003
78 Choi, J. G, "Effect of Reaction Atmosphere onParticle Morphology of TiO2 Produced by Thermal Decompositionof Titanium Tetraisopropoxide" 8 (8): 269-278, 2006
79 Kang, Y. C, "Effect of Preparation Conditions onthe Formation of Primary ZnO Particles in Filter ExpansionAerosol Generator" 16 (16): 131-133, 1997
80 Vander Wal, R. L, "Diffusion FlameSynthesis of Single-walled Carbon Nanotubes" 323 (323): 217-223, 2000
81 Barreiro, A, "Control of the Single-wall Carbon Nnanotube MeanDiameter in Sulphur Promoted Aerosol-assisted Chemical VapourDeposition" 45 (45): 55-61, 2007
82 Paradise, M, "Carbon Nanotubes : Productionand Industrial Applications" 28 (28): 1477-1489, 2007
83 J. H, "Atmospheric Chemistry and Physics of Air Pollution" 1986
84 Leconte, Y, "Application of the Laser Pyrolysis to the Synthesisof SiC, TiC and ZrC Pre-ceramics Nanopowders" 79 (79): 465-470, 2007
85 Kim, D.-J, "Analysis on Nanoparticle Growthby Coagulation in Silane Plasma Reactor" 48 (48): 2499-2509, 2002
86 Kim, K. S, "Analysis of Ultrafine Particles Generation and DepositionUsing Tube Furnace Reactor" 43 (43): 2679-2687, 1997
87 Siegel, "Advanced Topics in Materials Science and Engineering" Plenum 1993
88 Hyun, B. S, "A Study on Modeling of Tube FurnaceReactor for Fabrication of Ultrafine TiO2 Powders" 33 (33): 183-191, 1995
89 Jeon, K.-J, "A Simulation Study on the CompressionBehavior of Dust Cakes" 141 (141): 1-11, 2004