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Laser Interactions in Nanomaterials Synthesls |
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1 | (18) |
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1 | (1) |
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Laser Albation and Plume Thermalization at Low Pressures |
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2 | (2) |
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Synthesis of Nanoparticles by Laser Vaporization |
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4 | (1) |
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Self-Assembly of Carbon Fullerenes and Nanohorns |
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5 | (4) |
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Catlyst-Assisted Synthesis of SWNT's |
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9 | (1) |
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Laser Diagnostics and Controlled Chemical Vapor Deposition of Carbon Nanotubes |
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10 | (1) |
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10 | (5) |
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15 | (4) |
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Basic Physics of Femtosecond Laser Ablation |
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19 | (24) |
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19 | (1) |
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20 | (3) |
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22 | (1) |
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23 | (3) |
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23 | (2) |
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Desorption Mechanism - Coulomb Explosion |
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25 | (1) |
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Transient, Local Target Modification |
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26 | (4) |
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26 | (1) |
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27 | (3) |
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Transient Instability and Self-Organized Structure Formation |
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30 | (8) |
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Periodic ``Ripples'' Structures |
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30 | (2) |
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Instability and Self-Organization |
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32 | (3) |
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35 | (3) |
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38 | (1) |
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39 | (4) |
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Atomic/Molecular-Level Simulations of Laser-Materials Interactions |
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43 | (38) |
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43 | (4) |
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Molecular Dynamics Method for Simulation of Laser-Materials Interactions |
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47 | (8) |
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Molecular Dynamics Method |
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47 | (1) |
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Coarse-Grained MD model for Simulation of Laser Interactions with Molecular Systems |
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48 | (3) |
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Combined Contimuum-Atomistic Model for Simulation of Laser Interacvtions with Metals |
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51 | (2) |
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Boundary Conditions: Presssure Waves and Heat Conduction |
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53 | (2) |
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Simulations of Laser-Induced Structural and Phase Transformations |
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55 | (15) |
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Generaions of Crystal Defects |
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56 | (3) |
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Mechanisms and Kinetics of Laser Melting |
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59 | (4) |
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Photomechanical Spallation |
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63 | (4) |
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Phase Explosion and Laser Ablation |
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67 | (3) |
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70 | (2) |
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72 | (9) |
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Continuum Models of Ultershort Pulsed Laser Ablation |
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81 | (18) |
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81 | (1) |
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Ultrashort Laser-matter Interaction |
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82 | (2) |
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Notes on Contimuum Modeling in Application to Utrashort, Laser-Matter Interactions |
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84 | (5) |
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A General Continuum Approach for Modeling of Laser-induced Surface Charging |
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89 | (5) |
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94 | (1) |
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95 | (4) |
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Cluster Synthesis and Cluster-Assembled Deposition in Nanosecond Pulsed Laser Ablation |
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99 | (26) |
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99 | (3) |
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Phenomenology of Plume Expansion through an Ambient Gas |
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102 | (3) |
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Analytical Models for Plume Propagation through an Ambient Gas |
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105 | (3) |
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108 | (6) |
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114 | (8) |
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122 | (1) |
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122 | (3) |
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Nanoparticle Formation by Femtosecond Laser Ablation |
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125 | (16) |
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125 | (1) |
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126 | (1) |
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127 | (11) |
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Nature of the Species Emitted During fs PLD |
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129 | (2) |
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Nature of the Nanoparticle Formed During of PLD |
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131 | (3) |
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Relevant Paramet6ers of Nanoparticle Formation |
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134 | (4) |
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138 | (1) |
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139 | (2) |
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UV Laser Ablation of Polymers: From Structuring of Thin Film Deposition |
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141 | (36) |
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141 | (4) |
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Laser Ablation of Polymers |
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141 | (1) |
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142 | (3) |
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Polymer Properties and Ablation |
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145 | (19) |
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149 | (1) |
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Polymers and Photochemistry |
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149 | (1) |
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Fundamental Issues of Laser Ablstion |
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150 | (3) |
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153 | (4) |
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157 | (1) |
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Designed Polymers: Triasene Polymers |
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158 | (5) |
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Comparison of Designed and Commercially Available Polymers |
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163 | (1) |
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Deposition of Thin Films Using VV Lasers |
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164 | (6) |
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170 | (1) |
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171 | (6) |
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Deposition of Polymer and Organic Thin Films using Tunable, Ultrashort-Pulse Mid-Infrared Lasers |
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177 | (26) |
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Introduction and Motivation |
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177 | (7) |
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Mechanism of Laser Ablation at High Vibrational Excitation Density |
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178 | (1) |
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The Role of Excitation Density in Materiais Modification |
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179 | (3) |
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Laser Ablation at High Intensity and Pluse-Repetition Frequency |
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182 | (1) |
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Figures of Merit for Comparing Different Laser Processing Regimes |
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183 | (1) |
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Resonant Infrared Pulsed Laser Ablation of Neat Targets |
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184 | (7) |
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184 | (1) |
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Resonant Infrared Laser Ablation of Poly(Ethylene Glycol) |
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185 | (2) |
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Resonant Infrared Laser Ablation of Polystyrene |
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187 | (3) |
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Resonant Infrared Laser Deposition of Poly(Tetrafluoroethylene) |
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190 | (1) |
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Matrix-Assisted Resonant Infrared Plused Laser Deposition |
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191 | (7) |
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Deposition of the Conducting Polymer PEDOT:PSS |
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192 | (2) |
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Deposition of the Light-Emitting Polymer MEH-PPV |
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194 | (2) |
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Deposition of Functionalised Nanoperticles |
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196 | (2) |
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Solid-State Lasers for Resonant MIR Ablation |
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198 | (2) |
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200 | (1) |
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201 | (2) |
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Fundamentals and Applications of MAPLE |
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203 | (32) |
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203 | (2) |
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MAPLE Deposition Apparatus |
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205 | (1) |
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MAPLE Deposition of Polymers and Organic Materials |
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206 | (9) |
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MAPLE Deposition of Biomaterials |
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215 | (3) |
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MAPLE Deposition of Nanoparticle Films |
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218 | (12) |
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MAPLE Deposition of Tio2 Nanoparticle Films |
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219 | (4) |
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MAPLE Deposition of Sno2 Nanoparticle Films |
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223 | (7) |
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230 | (1) |
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231 | (1) |
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231 | (4) |
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Advanced Biomimetic Implants Based on Nonostructured Coatings Synthesized by Plused Laser Technologies |
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235 | (26) |
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235 | (5) |
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Pulsed Laser Deposition Technologies |
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236 | (3) |
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239 | (1) |
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240 | (3) |
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243 | (2) |
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Carbonated HA and β-TCP Doped with Mn2+ Coatings |
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245 | (4) |
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Carbonated HA Deped with Mn2+ |
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245 | (2) |
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β-Tricalcium Phosphate Doped with Mn2+ |
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247 | (2) |
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249 | (3) |
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Hybrid Orgnic-Inorganic Bionanocomposites |
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252 | (5) |
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252 | (2) |
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254 | (3) |
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257 | (1) |
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257 | (4) |
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Laser Direct Writing of Idealized Callular and Biologic Constructs for Tissue Engineering and Regenerative Medicine |
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261 | (18) |
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Conventional Tissue Engineering |
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261 | (1) |
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History of Cell Patterning and Direct Writing Biomaterials |
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262 | (2) |
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Matrix-Assisted Pulsed Laser Evaporation Direct Write |
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264 | (3) |
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Preparation of a Ribbon for Direct Write of Cells |
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267 | (1) |
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Combinatinatorial Libraries of Idealized Constructs |
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268 | (1) |
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Current MAPLE DW for Tissue Engineering, Regenerative Medicine, and Cancer Research |
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269 | (1) |
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Musculoskeletal Tissue Engineering |
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269 | (2) |
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271 | (1) |
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The Neural Stem Call Niche |
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272 | (1) |
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273 | (1) |
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Reproducibility and Repeatability |
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274 | (2) |
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276 | (1) |
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277 | (1) |
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277 | (2) |
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Ultrafast Laser Processing of Glass Down to the Nano-Scale |
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279 | (16) |
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279 | (1) |
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Features of Ultrafast Laser Processing |
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280 | (2) |
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Minimal Thermal Influence |
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280 | (1) |
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281 | (1) |
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282 | (1) |
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Spatial Resolution of Ultrafast Laser Processing |
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282 | (2) |
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284 | (1) |
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Internal Modification of Refractive Index |
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284 | (3) |
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Fabrication of 3D Hollow Structures |
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287 | (2) |
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Intergration of Optical Waveguide and Microfluidics for Optofluidics Applications |
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289 | (1) |
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290 | (2) |
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292 | (1) |
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292 | (3) |
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Free Electron Laser Synthesis of Functional Coatings |
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295 | (12) |
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296 | (3) |
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296 | (1) |
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297 | (1) |
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Protective Coatings and TIN |
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298 | (1) |
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299 | (1) |
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Sample Preparation and Setup |
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299 | (1) |
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300 | (1) |
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300 | (4) |
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FEL Irradiation at CW-Mode |
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300 | (2) |
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FEL Irradiation at Plused Mode |
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302 | (2) |
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304 | (1) |
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305 | (2) |
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PLD of Plesoelectric and Ferroelectric Materials |
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307 | (24) |
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307 | (2) |
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RF-Assisted Pulsed Laser Deposition |
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309 | (2) |
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Non-Ferroelectric Plesoelectrics |
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311 | (16) |
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311 | (16) |
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327 | (1) |
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327 | (4) |
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Lasers in Cultural Heritages: The Non-Contact Intervention |
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331 | (20) |
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331 | (1) |
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Architectonic Structures and Sculptures |
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332 | (3) |
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335 | (1) |
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336 | (1) |
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336 | (3) |
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Case Studies and Diagnostics |
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339 | (8) |
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347 | (1) |
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347 | (4) |
| Index |
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351 | |
