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1. (hist) ‎Topic 1 ‎[7 bytes]
2. (hist) ‎Acoustics ‎[9 bytes]
3. (hist) ‎Analytical Ultracentrifugation of Nanoparticles ‎[14 bytes]
4. (hist) ‎Antibacterial Properties of Silver Nanomaterials ‎[14 bytes]
5. (hist) ‎Antibody Therapy ‎[14 bytes]
6. (hist) ‎Applications of Electrodeposited Nanostructures ‎[14 bytes]
7. (hist) ‎Applications of Focused Ion Beam in Nanotechnology ‎[14 bytes]
8. (hist) ‎Arc Discharge ‎[14 bytes]
9. (hist) ‎Atomic Manipulation by Scanning Tunneling Microscopy ‎[14 bytes]
10. (hist) ‎Atomic Wires ‎[14 bytes]
11. (hist) ‎Augmented Waves for Nanomaterials ‎[14 bytes]
12. (hist) ‎Boron-Carbon Nitride Nanohybrids ‎[14 bytes]
13. (hist) ‎Atomic Structure of Diamond Surfaces ‎[14 bytes]
14. (hist) ‎Atomic Structure of Defects in Semiconductors ‎[14 bytes]
15. (hist) ‎Calixarenes ‎[14 bytes]
16. (hist) ‎C60-Based Materials ‎[14 bytes]
17. (hist) ‎Boron Nanostructures ‎[14 bytes]
18. (hist) ‎Bone Repair ‎[14 bytes]
19. (hist) ‎Boron Nitride Nanotubes ‎[14 bytes]
20. (hist) ‎Bionanomotors ‎[14 bytes]
21. (hist) ‎Bismuth Nanostructured Materials ‎[14 bytes]
22. (hist) ‎Bionanodevices ‎[14 bytes]
23. (hist) ‎Bioluminescence Tomography ‎[14 bytes]
24. (hist) ‎Biological Molecules in Nanodevices ‎[14 bytes]
25. (hist) ‎Biogenic Nanoparticles ‎[14 bytes]
26. (hist) ‎Biodoped Sol-Gel Polymer Nanocomposites ‎[14 bytes]
27. (hist) ‎Bioconjugated Silica Nanoparticles for Bioanalysis ‎[14 bytes]
28. (hist) ‎Biocompatible Core-Shell Nanoparticles for Biomedicine ‎[14 bytes]
29. (hist) ‎Cantilever-Based Sensors ‎[14 bytes]
30. (hist) ‎Carbon Nanomaterials ‎[14 bytes]
31. (hist) ‎Carbon Nanostructures for Cold Electron Sources ‎[14 bytes]
32. (hist) ‎Carbon Nanotube Growth by Chemical Vapor Deposition ‎[14 bytes]
33. (hist) ‎Carbon Nanotube Sensors ‎[14 bytes]
34. (hist) ‎Carbon Nanotube-Based Field Emitters ‎[14 bytes]
35. (hist) ‎Carbon Nanotubes in Composite Materials ‎[14 bytes]
36. (hist) ‎Carbon Nanotubes: Synthesis by Arc Discharge Technique ‎[14 bytes]
37. (hist) ‎Catalysis by Gold Nanoparticles ‎[14 bytes]
38. (hist) ‎Catalytic Synthesis of Carbon Nanotubes and Nanofibers ‎[14 bytes]
39. (hist) ‎Cell proliferation ‎[14 bytes]
40. (hist) ‎Ceramic Nanoparticle Synthesis ‎[14 bytes]
41. (hist) ‎Ceramic Nanopowders ‎[14 bytes]
42. (hist) ‎Charge Carrier Dynamics in Nanoparticles ‎[14 bytes]
43. (hist) ‎Chemical Derivatization of Carbon Nanotube Tips ‎[14 bytes]
44. (hist) ‎Chemical Synthesis of Nanoparticles ‎[14 bytes]
45. (hist) ‎Chemically Prepared Magnetic Nanoparticles ‎[14 bytes]
46. (hist) ‎Chiral Macrocycles ‎[14 bytes]
47. (hist) ‎Cluster-Assembled Nanostructured Carbon ‎[14 bytes]
48. (hist) ‎Chemistry of Carbon Nanotubes ‎[14 bytes]
49. (hist) ‎Colloidal Gold ‎[14 bytes]
50. (hist) ‎Carbon Nanotube-Based Supercapacitors ‎[14 bytes]
51. (hist) ‎Computational Atomic Nanodesign ‎[14 bytes]
52. (hist) ‎Conducting Polymer Nanostructures ‎[14 bytes]
53. (hist) ‎Conducting Polymer Nanotubes ‎[14 bytes]
54. (hist) ‎Confined Molecules in Nanopores ‎[14 bytes]
55. (hist) ‎Copper Chloride Quantum Dots ‎[14 bytes]
56. (hist) ‎Conducting Polymeric Nanomaterials ‎[14 bytes]
57. (hist) ‎Core-Shell Nanoparticles ‎[14 bytes]
58. (hist) ‎Crystal Engineering of Metallic Nanoparticles ‎[14 bytes]
59. (hist) ‎Cyclodextrins and Molecular Encapsulation ‎[14 bytes]
60. (hist) ‎Crystallography and Shape of Nanoparticles and Clusters ‎[14 bytes]
61. (hist) ‎Dynamics of Metal Nanoclusters ‎[14 bytes]
62. (hist) ‎Dynamic Processes in Magnetic Nanostructures ‎[14 bytes]
63. (hist) ‎Dye/Inorganic Nanocomposites ‎[14 bytes]
64. (hist) ‎Defects in Carbon Nanotubes ‎[14 bytes]
65. (hist) ‎Deformation Behavior of Nanocrystalline Materials ‎[14 bytes]
66. (hist) ‎Dendrimer-Metal Nanocomposites ‎[14 bytes]
67. (hist) ‎Dendrimers-DNA Nanoplexes Nanoobjects and Nanosystems ‎[14 bytes]
68. (hist) ‎Dendritic Encapsulation ‎[14 bytes]
69. (hist) ‎Diamond Nanocrystals ‎[14 bytes]
70. (hist) ‎Dielectric Properties of Nanoparticles ‎[14 bytes]
71. (hist) ‎Diffusion and Thermal Vacancy Formation in Nanocrystalline Materials ‎[14 bytes]
72. (hist) ‎Diffusion in Nanomaterials ‎[14 bytes]
73. (hist) ‎Dip-Pen Nanolithography ‎[14 bytes]
74. (hist) ‎Disulfide-Bond Associated Protein Folding ‎[14 bytes]
75. (hist) ‎DNA Electronics ‎[14 bytes]
76. (hist) ‎DNA-based cryptography ‎[14 bytes]
77. (hist) ‎DNA-Based Nanodevices ‎[14 bytes]
78. (hist) ‎Doped Carbon Nanotubes ‎[14 bytes]
79. (hist) ‎Doped II-VI Semiconductor Nanoparticles ‎[14 bytes]
80. (hist) ‎Double- and Triple-Decker Phthalocyanines/Porphyrins ‎[14 bytes]
81. (hist) ‎Doubly Connected Mesoscopic Superconductors ‎[14 bytes]
82. (hist) ‎Drug Delivery ‎[14 bytes]
83. (hist) ‎Drug Nanocrystals of Poorly Soluble Drugs ‎[14 bytes]
84. (hist) ‎Elastic Models for Carbon Nanotubes ‎[14 bytes]
85. (hist) ‎Electrically Detected Magnetic Resonance ‎[14 bytes]
86. (hist) ‎Electrochemical Fabrication of Metal Nanowires ‎[14 bytes]
87. (hist) ‎Electrochemical Insertion of Lithium in Carbon Nanotubes ‎[14 bytes]
88. (hist) ‎Electrochemical Nanoelectrodes ‎[14 bytes]
89. (hist) ‎Electrochemical Self-Assembly of Oxide/Dye Composites ‎[14 bytes]
90. (hist) ‎Electrochemical Synthesis of Semiconductor Nanowires ‎[14 bytes]
91. (hist) ‎Electrochemistry of Silicate-Based Nanomaterials ‎[14 bytes]
92. (hist) ‎Electromagnetism in Nanogranular Metal Oxides ‎[14 bytes]
93. (hist) ‎Electrodeposited Nanogranular Magnetic Cobalt Alloys ‎[14 bytes]
94. (hist) ‎Electron Beam Writing in Nanoparticle Films ‎[14 bytes]
95. (hist) ‎Electron Dynamics in Metallic Nanoparticles ‎[14 bytes]
96. (hist) ‎Electron Holography of Nanostructured Materials ‎[14 bytes]
97. (hist) ‎Electron Raman Scattering in Nanostructures ‎[14 bytes]
98. (hist) ‎Electronic Properties and Applications of Carbon Nanotubes ‎[14 bytes]
99. (hist) ‎Electronic Properties of Carbon Nanotubes ‎[14 bytes]
100. (hist) ‎Electronic Structure of Semiconductor Nanoparticles ‎[14 bytes]
101. (hist) ‎Embedded Metal and Alloy Nanoparticles ‎[14 bytes]
102. (hist) ‎Electronic Tunnelling Time in Nanostructures ‎[14 bytes]
103. (hist) ‎Encapsulation ‎[14 bytes]
104. (hist) ‎Epitaxy of Ion-Irradiated Quartz ‎[14 bytes]
105. (hist) ‎Equilibrium Properties of Mesoscopic Quantum Conductors ‎[14 bytes]
106. (hist) ‎Evanescent Wave Spectroscopy ‎[14 bytes]
107. (hist) ‎Extreme Ultraviolet Nanolithography ‎[14 bytes]
108. (hist) ‎Epoxy/Clay Nanocomposites ‎[14 bytes]
109. (hist) ‎Fast Atomic Force Microscopy ‎[14 bytes]
110. (hist) ‎Fe-Cu Nanoalloying ‎[14 bytes]
111. (hist) ‎Ferroelectric Nanocrystal Dispersed Oxide Glasses ‎[14 bytes]
112. (hist) ‎Ferroelectric Nanodomains ‎[14 bytes]
113. (hist) ‎Ferroelectric Nanomaterials ‎[14 bytes]
114. (hist) ‎Field Emission of Carbon Nanotubes ‎[14 bytes]
115. (hist) ‎Filling of Carbon Nanotubes ‎[14 bytes]
116. (hist) ‎Fivefold Twinned Nanoparticles ‎[14 bytes]
117. (hist) ‎Fluoride-Based Magnetic Heterostructures ‎[14 bytes]
118. (hist) ‎Focused Ion Beam Nanofabrication ‎[14 bytes]
119. (hist) ‎Formation of Bulk Nanostructured Alloys ‎[14 bytes]
120. (hist) ‎Formation of Nanostructured Polymers ‎[14 bytes]
121. (hist) ‎Friction of Model Self-Assembled Monolayers ‎[14 bytes]
122. (hist) ‎Fullerene Dimers ‎[14 bytes]
123. (hist) ‎Fullerene Lipid Films ‎[14 bytes]
124. (hist) ‎Fullerene Mechanochemistry ‎[14 bytes]
125. (hist) ‎Fullerene Nanomaterials ‎[14 bytes]
126. (hist) ‎Fullerenes for Photovoltaics ‎[14 bytes]
127. (hist) ‎Functionalities of Dendrimers ‎[14 bytes]
128. (hist) ‎GaAs-Based Nanodevices ‎[14 bytes]
129. (hist) ‎GaInNAs Quantum Well Lasers ‎[14 bytes]
130. (hist) ‎Gas Adsorption on Carbon Nanotubes ‎[14 bytes]
131. (hist) ‎Germanium Nanocrystals ‎[14 bytes]
132. (hist) ‎Gas Sensors from Nanostructured Metal Oxides ‎[14 bytes]
133. (hist) ‎Germanium Nanocrystals Structure ‎[14 bytes]
134. (hist) ‎Germanium-on-Silicon Infrared Detectors ‎[14 bytes]
135. (hist) ‎Giant Magnetoresistance in Cobalt-Based Multilayers ‎[14 bytes]
136. (hist) ‎Gold nanoparticles ‎[14 bytes]
137. (hist) ‎Growth Simulations of Nanoclusters ‎[14 bytes]
138. (hist) ‎Health Care ‎[14 bytes]
139. (hist) ‎Dip-Pen Nanolithography: ‎[16 bytes]
140. (hist) ‎HiPco Process for Single-Wall Carbon Nanotube Production ‎[16 bytes]
141. (hist) ‎Hybrid Nanomaterials ‎[16 bytes]
142. (hist) ‎High-Field Conduction in Nanostructures ‎[16 bytes]
143. (hist) ‎Hybrid Solar Cells ‎[16 bytes]
144. (hist) ‎Hydrogen and Oxygen Interaction with Carbon Nanotubes ‎[16 bytes]
145. (hist) ‎Hydrogen Storage by Carbon Nanotubes ‎[16 bytes]
146. (hist) ‎Hydrogenated Nanocrystalline Silicons ‎[16 bytes]
147. (hist) ‎Hydrophylic Nanoparticles ‎[16 bytes]
148. (hist) ‎Ignition ‎[16 bytes]
149. (hist) ‎III/V Semiconductor Quantum Dots ‎[16 bytes]
150. (hist) ‎Impedance Spectroscopy ‎[16 bytes]
151. (hist) ‎Impurity States and Atomic Systems Confined in Nanostructures ‎[16 bytes]
152. (hist) ‎Inherently Conducting Polymer Nanostructures ‎[16 bytes]
153. (hist) ‎Inorganic Nanomaterials from Molecular Templates ‎[16 bytes]
154. (hist) ‎In-situ Microscopy of Nanoparticles ‎[16 bytes]
155. (hist) ‎In-situ Nanomeasurements of Individual Carbon Nanotubes ‎[16 bytes]
156. (hist) ‎Integrated Passive Components ‎[16 bytes]
157. (hist) ‎Interaction of Nanoparticles with Aquatic Species ‎[16 bytes]
158. (hist) ‎Interatomic Potential Models for Nanostructures ‎[16 bytes]
159. (hist) ‎Interfacial Defects in Nanostructures ‎[16 bytes]
160. (hist) ‎Interfacial Effects in Nanocrystalline Materials ‎[16 bytes]
161. (hist) ‎Ion Implanted Nanostructures ‎[16 bytes]
162. (hist) ‎Ion Sputtering on Metal Surfaces ‎[16 bytes]
163. (hist) ‎Iron Oxide Nanoparticles ‎[16 bytes]
164. (hist) ‎Ionic Conduction in Nanostructured Materials ‎[16 bytes]
165. (hist) ‎Irradiation Preparation of Nanomaterials ‎[16 bytes]
166. (hist) ‎Kelvin Probe Technique for Nanotechnology ‎[16 bytes]
167. (hist) ‎Kinesin and Nanoactuators ‎[16 bytes]
168. (hist) ‎Kinetics in Nanostructured Materials ‎[16 bytes]
169. (hist) ‎Kondo Effect in Quantum Dots ‎[16 bytes]
170. (hist) ‎Lab-on-a-Chip Technologies ‎[16 bytes]
171. (hist) ‎Laser Ablation ‎[16 bytes]
172. (hist) ‎Laser Assisted Scanning Probe Microscope Nanofabrication ‎[16 bytes]
173. (hist) ‎Laser Fusion Target Nanomaterials ‎[16 bytes]
174. (hist) ‎Laser Induced Surface Nanostructuring ‎[16 bytes]
175. (hist) ‎Layer-by-Layer and Langmuir-Blodgett Films from Nanoparticles and Complexes ‎[16 bytes]
176. (hist) ‎Layer-by-Layer Nanoarchitectonics ‎[16 bytes]
177. (hist) ‎Lead Sulfide Nanoparticles ‎[16 bytes]
178. (hist) ‎Light Scattering of Semiconducting Nanoparticles ‎[16 bytes]
179. (hist) ‎Light-Harvesting Nanostructures ‎[16 bytes]
180. (hist) ‎Lithography ‎[16 bytes]
181. (hist) ‎Localization and Interactions in MagneticNanostructures ‎[16 bytes]
182. (hist) ‎Low-Dimensional Nanocrystals ‎[16 bytes]
183. (hist) ‎Low-Frequency Noise in Nanomaterials and Nanostructures ‎[16 bytes]
184. (hist) ‎Low-Temperature Scanning Tunneling Microscopy ‎[16 bytes]
185. (hist) ‎Luminescence of Semiconductor Nanoparticles ‎[16 bytes]
186. (hist) ‎Luminescent Organic-Inorganic Nanohybrids ‎[16 bytes]
187. (hist) ‎Macroscopically Aligned Carbon Nanotubes ‎[16 bytes]
188. (hist) ‎Magnesium-Nickel Nanocrystalline and Amorphous Alloys for Batteries ‎[16 bytes]
189. (hist) ‎Magnetic Field Effects in Nanostructures ‎[16 bytes]
190. (hist) ‎Magnetic Semiconductor Nanostructures ‎[16 bytes]
191. (hist) ‎Magnetism in Nanoclusters ‎[16 bytes]
192. (hist) ‎Magnetism in Rare Earth/Transition Metal Multilayers ‎[16 bytes]
193. (hist) ‎Magnetoimpedance in Nanocrystalline Alloys ‎[16 bytes]
194. (hist) ‎Magnetostrictive Nanomaterials for Sensors ‎[16 bytes]
195. (hist) ‎Magnetotransport in Nanogranular Materials ‎[16 bytes]
196. (hist) ‎Manganite Nanocomposites ‎[16 bytes]
197. (hist) ‎Mechanical Behavior of Nanomaterials ‎[16 bytes]
198. (hist) ‎Mechanical Molecular Nanodevices ‎[16 bytes]
199. (hist) ‎Mechanical Processing for Nanomaterials ‎[16 bytes]
200. (hist) ‎Mechanical Properties of Nanostructured Materials ‎[16 bytes]
201. (hist) ‎Medical Applications ‎[16 bytes]
202. (hist) ‎Membranes ‎[16 bytes]
203. (hist) ‎MEMS-Based Nanotechnology ‎[16 bytes]
204. (hist) ‎Mesoscopic Organizations of Metal Nanocrystals ‎[16 bytes]
205. (hist) ‎Mesoscopic Phenomena in Nanotubes and Nanowires ‎[16 bytes]
206. (hist) ‎Metal Nanoclusters ‎[16 bytes]
207. (hist) ‎Metal Nanoclusters as Quantum Dots ‎[16 bytes]
208. (hist) ‎Metal Nanoclusters by Ion Implantation ‎[16 bytes]
209. (hist) ‎Metal Nanoclusters on Oxide Surfaces ‎[16 bytes]
210. (hist) ‎Metal Nano-Optics ‎[16 bytes]
211. (hist) ‎Metal Nanoparticle Superlattices ‎[16 bytes]
212. (hist) ‎Metal Nanoparticles ‎[16 bytes]
213. (hist) ‎Metal Nanoparticles in Catalysis ‎[16 bytes]
214. (hist) ‎Metal Nanostructures ‎[16 bytes]
215. (hist) ‎Metal Oxide Nanostructures as Gas Sensors ‎[16 bytes]
216. (hist) ‎Metal Oxides ‎[16 bytes]
217. (hist) ‎Metal Polyhedral Nanorods ‎[16 bytes]
218. (hist) ‎Metallic State in Conducting Polymers ‎[16 bytes]
219. (hist) ‎Micellar Nanoparticles ‎[16 bytes]
220. (hist) ‎Micro and Nanocantilever Sensors ‎[16 bytes]
221. (hist) ‎Micelles ‎[16 bytes]
222. (hist) ‎Micro and Nanomechanics ‎[16 bytes]
223. (hist) ‎Microwaves ‎[16 bytes]
224. (hist) ‎Modeling of Carbon-Based Nanojunctions ‎[16 bytes]
225. (hist) ‎Modification of Carbon Nanotubes ‎[16 bytes]
226. (hist) ‎Molecular Electronic Devices ‎[16 bytes]
227. (hist) ‎Molecular Gradient Nanoassemblies ‎[16 bytes]
228. (hist) ‎Molecular Logic Gates ‎[16 bytes]
229. (hist) ‎Molecular Nanotechnology with 2D Protein Crystals ‎[16 bytes]
230. (hist) ‎Molecular Planar Technology ‎[16 bytes]
231. (hist) ‎Molecular Sieve Silica Membranes ‎[16 bytes]
232. (hist) ‎Molecular Tectonics in Sol--Gel Chemistry ‎[16 bytes]
233. (hist) ‎Molecular Wires and Switches ‎[16 bytes]
234. (hist) ‎Monolayer-Assisted Electrochemical Nanopatterning ‎[16 bytes]
235. (hist) ‎Monolayer-Based Scanning Probe Lithography ‎[16 bytes]
236. (hist) ‎Monolayer-Coated Au and Ag Nanoclusters ‎[16 bytes]
237. (hist) ‎Multiwall Carbon Nanotubes ‎[16 bytes]
238. (hist) ‎Nanoadsorbents ‎[16 bytes]
239. (hist) ‎Nanoanalysis of Biomaterials ‎[16 bytes]
240. (hist) ‎Nanoassembly for Polymer Electronics ‎[16 bytes]
241. (hist) ‎Nanobattery Biomimetics ‎[16 bytes]
242. (hist) ‎Nanobiosensors ‎[16 bytes]
243. (hist) ‎Nanocables and Nanojunctions ‎[16 bytes]
244. (hist) ‎Nanocapsules ‎[16 bytes]
245. (hist) ‎Nanocar ‎[16 bytes]
246. (hist) ‎Nanocarriers ‎[16 bytes]
247. (hist) ‎Nanocatalysis ‎[16 bytes]
248. (hist) ‎Nanocatalyst ‎[16 bytes]
249. (hist) ‎Nanoceramics ‎[16 bytes]
250. (hist) ‎Nanochemistry ‎[16 bytes]
251. (hist) ‎Nanocluster Characterization by EXAFS Spectroscopy ‎[16 bytes]
252. (hist) ‎Nanocoatings ‎[16 bytes]
253. (hist) ‎Nanoclusters and Nanofilaments in Porous Media ‎[16 bytes]
254. (hist) ‎Nanocomposites ‎[16 bytes]
255. (hist) ‎Nanocomputers: Theoretical Models ‎[16 bytes]
256. (hist) ‎Nanocomposites of Polymers and Inorganic Particles ‎[16 bytes]
257. (hist) ‎Nanocontainers ‎[16 bytes]
258. (hist) ‎Nanocrystal Memories ‎[16 bytes]
259. (hist) ‎Nanocrystalline Aluminum Alloys ‎[16 bytes]
260. (hist) ‎Nanocrystalline and Amorphous Magnetic Microwires ‎[16 bytes]
261. (hist) ‎Nanocrystalline Barium Titanate ‎[16 bytes]
262. (hist) ‎Nanocrystalline Diamond ‎[16 bytes]
263. (hist) ‎Nanocrystalline Ceramics by Mechanical Activation ‎[16 bytes]
264. (hist) ‎Nanocrystalline Phosphors ‎[16 bytes]
265. (hist) ‎Nanocrystalline Silicon Superlattices ‎[16 bytes]
266. (hist) ‎Nanocrystalline Silicon: Electron Spin Resonance ‎[16 bytes]
267. (hist) ‎Nanocrystalline TiO2 for Photocatalysis ‎[16 bytes]
268. (hist) ‎Nanocrystals Assembled from the Bottom Up ‎[16 bytes]
269. (hist) ‎Nanocrystals from Solutions and Gels ‎[16 bytes]
270. (hist) ‎Nanocrystals in Organic/Inorganic Materials ‎[16 bytes]
271. (hist) ‎Nanodelivery ‎[16 bytes]
272. (hist) ‎Nanodeposition of Soft Materials ‎[16 bytes]
273. (hist) ‎Nanodiamond ‎[16 bytes]
274. (hist) ‎Nanodielectrophoresis: Electronic Nanotweezers ‎[16 bytes]
275. (hist) ‎Nanoelectromechanical Systems ‎[16 bytes]
276. (hist) ‎Nanoelectronics with Single Molecules ‎[16 bytes]
277. (hist) ‎Nanoembossing Techniques ‎[16 bytes]
278. (hist) ‎Nanoemulsions ‎[16 bytes]
279. (hist) ‎Nanofabrication by Glancing Angle Deposition ‎[16 bytes]
280. (hist) ‎Nanofactories ‎[16 bytes]
281. (hist) ‎Nanofibers ‎[16 bytes]
282. (hist) ‎Nanofiltration ‎[16 bytes]
283. (hist) ‎Nanofluidics ‎[16 bytes]
284. (hist) ‎Nanofluids ‎[16 bytes]
285. (hist) ‎Nanoglass ‎[16 bytes]
286. (hist) ‎Nanohelical/Spiral Materials ‎[16 bytes]
287. (hist) ‎Nanoicosahedral Quasicrystal ‎[16 bytes]
288. (hist) ‎Nanoindentation ‎[16 bytes]
289. (hist) ‎Nanomagnetics for Biomedical Applications ‎[16 bytes]
290. (hist) ‎Nanomagnets for Biomedical Applications ‎[16 bytes]
291. (hist) ‎Nanomaterials by Severe Plastic Deformation ‎[16 bytes]
292. (hist) ‎Nanomaterials for Cell Engineering ‎[16 bytes]
293. (hist) ‎Nanomaterials from Discotic Liquid Crystals ‎[16 bytes]
294. (hist) ‎Nanomechanical Properties by Nanoindentation ‎[16 bytes]
295. (hist) ‎Nanomechanics of Nanoscale Materials ‎[16 bytes]
296. (hist) ‎Nanomedicine ‎[16 bytes]
297. (hist) ‎Nanomembranes ‎[16 bytes]
298. (hist) ‎Nanomotor ‎[16 bytes]
299. (hist) ‎Nanoonions ‎[16 bytes]
300. (hist) ‎Nanoparticle Drug Delivery to the Brain ‎[16 bytes]
301. (hist) ‎Nanoparticle Reinforced Thermoplastic Composites ‎[16 bytes]
302. (hist) ‎Nanoparticles and Catalysis ‎[16 bytes]
303. (hist) ‎Nanoparticles as Drug Delivery Systems ‎[16 bytes]
304. (hist) ‎Nanoparticles for Live-Cell Dynamics ‎[16 bytes]
305. (hist) ‎Nanoparticles in Nanostructured Polymers ‎[16 bytes]
306. (hist) ‎Nanophotonics ‎[16 bytes]
307. (hist) ‎Nanopinning in High-Temperature Superconductors ‎[16 bytes]
308. (hist) ‎Nanopipes in Transition Metal Nitrides ‎[16 bytes]
309. (hist) ‎Nanopolymers ‎[16 bytes]
310. (hist) ‎Nanopore Analysis of DNA ‎[16 bytes]
311. (hist) ‎Nanoporous Carbons ‎[16 bytes]
312. (hist) ‎Nanoporous Materials ‎[16 bytes]
313. (hist) ‎Nanopowders Produced Using Microreactors ‎[16 bytes]
314. (hist) ‎Nanoprecipitates and Nanocavities in Functional Materials ‎[16 bytes]
315. (hist) ‎Nanorecognition ‎[16 bytes]
316. (hist) ‎Nanorobotics and Nanomanipulation ‎[16 bytes]
317. (hist) ‎Nanorobots ‎[16 bytes]
318. (hist) ‎Nanoscale Characterization of Biomaterials ‎[16 bytes]
319. (hist) ‎Nanoscale Dilute Magnetic Semiconductors ‎[16 bytes]
320. (hist) ‎Nanoscale Heat Transfer ‎[16 bytes]
321. (hist) ‎Nanoscale Magnetic Random Access Memory Elements ‎[16 bytes]
322. (hist) ‎Nanoscopic Optical Tracers ‎[16 bytes]
323. (hist) ‎Nanosspintronics for Data Storage ‎[16 bytes]
324. (hist) ‎Nanostorage ‎[16 bytes]
325. (hist) ‎Nanostructured Barium Strontium Titanate Thin Films ‎[16 bytes]
326. (hist) ‎Nanostructured Biomaterials ‎[16 bytes]
327. (hist) ‎Nanostructured Bipolar Organic Polymers ‎[16 bytes]
328. (hist) ‎Nanostructured Carbide-Derived Carbon ‎[16 bytes]
329. (hist) ‎Nanostructured Chalcogenide Glasses ‎[16 bytes]
330. (hist) ‎Nanostructured Extracellular Matrix ‎[16 bytes]
331. (hist) ‎Nanostructured Hybrids from Layered Double Hydroxides ‎[16 bytes]
332. (hist) ‎Nanostructured Metals and Alloys ‎[16 bytes]
333. (hist) ‎Nanostructured Metals in Surface Enhanced Raman Spectroscopy ‎[16 bytes]
334. (hist) ‎Nanostructured Organic Light-Emitting Diodes ‎[16 bytes]
335. (hist) ‎Nanostructured Surface Modifications for Biomedical Implants ‎[16 bytes]
336. (hist) ‎Nanostructured Zeolite Films ‎[16 bytes]
337. (hist) ‎Nanostructures Created by Lasers ‎[16 bytes]
338. (hist) ‎Nanostructures Within Porous Materials ‎[16 bytes]
339. (hist) ‎Nanostructuring at Surfaces Using Proteins ‎[16 bytes]
340. (hist) ‎Nanosuspension ‎[16 bytes]
341. (hist) ‎Nanothermometers ‎[16 bytes]
342. (hist) ‎Nanotoxicology ‎[16 bytes]
343. (hist) ‎Nanotribology ‎[16 bytes]
344. (hist) ‎Nanotribology of Carbon Films ‎[16 bytes]
345. (hist) ‎Nanotribology: Friction Force Microscopy ‎[16 bytes]
346. (hist) ‎Nanotubes for Nanoelectronics ‎[16 bytes]
347. (hist) ‎Nanowires ‎[16 bytes]
348. (hist) ‎Near-Field Optical Properties of Nanostructures ‎[16 bytes]
349. (hist) ‎Noble Metal Nanocolloids ‎[16 bytes]
350. (hist) ‎Noble Metal Nanoparticles ‎[16 bytes]
351. (hist) ‎Nonlinear Optical Materials by Sol--Gel Method ‎[16 bytes]
352. (hist) ‎Nonlinear Optics of Fullerenes and Carbon Nanotubes ‎[16 bytes]
353. (hist) ‎Nonlinear Optics of Nanoparticles and Nanocomposites ‎[16 bytes]
354. (hist) ‎Nucleation Kinetics of Nanofilms ‎[16 bytes]
355. (hist) ‎Nucleoprotein Assemblies ‎[16 bytes]
356. (hist) ‎One-Dimensional Metal Oxide Nanostructures ‎[16 bytes]
357. (hist) ‎Optical Fibers for Nanodevices ‎[16 bytes]
358. (hist) ‎Optical Properties of Gallium Nitride Nanostructures ‎[16 bytes]
359. (hist) ‎Optical Properties of Oligophenylenevinylenes ‎[16 bytes]
360. (hist) ‎Ordered Mesoporous Materials ‎[16 bytes]
361. (hist) ‎Ordered Nanoporous Particles ‎[16 bytes]
362. (hist) ‎Organic Nanofilm Growth ‎[16 bytes]
363. (hist) ‎Organic Polyradical Magnetic Nanoclusters ‎[16 bytes]
364. (hist) ‎Organic Thin Film Deposition Techniques ‎[16 bytes]
365. (hist) ‎Organic/Inorganic Nanocomposite Colloids ‎[16 bytes]
366. (hist) ‎Oxide Nanoparticles ‎[16 bytes]
367. (hist) ‎Oxide Nanowires and Nanorods ‎[16 bytes]
368. (hist) ‎Palladium Nanoparticles ‎[16 bytes]
369. (hist) ‎Patterned Magnetic Nanostructures ‎[16 bytes]
370. (hist) ‎Pb-Based Ferroelectric Nanomaterials ‎[16 bytes]
371. (hist) ‎Peptide Nanotubes ‎[16 bytes]
372. (hist) ‎Periodic Nanostructures with Interfering Femtosecond Lasers ‎[16 bytes]
373. (hist) ‎Pharmaceutical Nanotechnology ‎[16 bytes]
374. (hist) ‎Phase Mixture Models for Metallic Nanomaterials ‎[16 bytes]
375. (hist) ‎Phonon Confinement in Nanostructured Materials ‎[16 bytes]
376. (hist) ‎Phonons in GaN-AlN Nanostructures ‎[16 bytes]
377. (hist) ‎Photochemical Molecular Devices ‎[16 bytes]
378. (hist) ‎Photochemistry in Zeolite Nanocavities ‎[16 bytes]
379. (hist) ‎Photoconductivity of Carbon Nanotubes ‎[16 bytes]
380. (hist) ‎Photodynamics of Nanoclusters ‎[16 bytes]
381. (hist) ‎Photoexcitation Dynamics of Fullerenes ‎[16 bytes]
382. (hist) ‎Photonic Crystal Lasers ‎[16 bytes]
383. (hist) ‎Phthalocyanine Nanostructures ‎[16 bytes]
384. (hist) ‎Plasma Chemical Vapor Deposition of Nanocrystalline Diamond ‎[16 bytes]
385. (hist) ‎Plasmonics ‎[16 bytes]
386. (hist) ‎Polyacetylene Nanostructures ‎[16 bytes]
387. (hist) ‎Polyaniline ‎[16 bytes]
388. (hist) ‎Polyaniline Fractal Nanocomposites ‎[16 bytes]
389. (hist) ‎Polymer Electrolyte Nanocomposites ‎[16 bytes]
390. (hist) ‎Polymer Nanostructures ‎[16 bytes]
391. (hist) ‎Polymer/Clay Nanocomposites ‎[16 bytes]
392. (hist) ‎Polymeric Nano/Microgels ‎[16 bytes]
393. (hist) ‎Polymeric Nanoparticles ‎[16 bytes]
394. (hist) ‎Polymeric Nanoparticles for Drug and Gene Delivery ‎[16 bytes]
395. (hist) ‎Polymers ‎[16 bytes]
396. (hist) ‎Porphyrin-Based Chemical Sensors ‎[16 bytes]
397. (hist) ‎Preparation of Vesicles (Liposomes) ‎[16 bytes]
398. (hist) ‎Protein-Doped Nanoporous Silica Gels ‎[16 bytes]
399. (hist) ‎Quantum Dot Infrared Photodetector 131 ‎[16 bytes]
400. (hist) ‎Quantum Dots: Artificial Atoms and Molecules ‎[16 bytes]
401. (hist) ‎Quantum Well Infrared Detectors ‎[16 bytes]
402. (hist) ‎Quantum Well Infrared Photodetectors: Theoretical Aspects ‎[16 bytes]
403. (hist) ‎Radiation Synthesis ‎[16 bytes]
404. (hist) ‎Raman Scattering in Nanostructures ‎[16 bytes]
405. (hist) ‎Raman Spectroscopy in Carbon Nanotubes ‎[16 bytes]
406. (hist) ‎Raman Spectroscopy of Quantum Wires and Quantum Dots ‎[16 bytes]
407. (hist) ‎Resists for Nanolithography ‎[16 bytes]
408. (hist) ‎Resonant Tunneling Devices ‎[16 bytes]
409. (hist) ‎Room-Temperature Ballistic Nanodevices ‎[16 bytes]
410. (hist) ‎Scanning Probe Techniques for Semiconductor Nanostructures ‎[16 bytes]
411. (hist) ‎Scanning Tunneling Microscopy of Carbon Nanotubes ‎[16 bytes]
412. (hist) ‎Self-Assembled Monolayers on Semiconductor Surfaces ‎[16 bytes]
413. (hist) ‎Self-Assembled Nanobiomaterials ‎[16 bytes]
414. (hist) ‎Self-Assembled Nanofibers ‎[16 bytes]
415. (hist) ‎Self-Assembled Nanostructures at Silicon Surfaces ‎[16 bytes]
416. (hist) ‎Self-Assembled Organic/Inorganic Nanocomposites ‎[16 bytes]
417. (hist) ‎Self-Assembled Porphyrin Arrays ‎[16 bytes]
418. (hist) ‎Self-Assembled Porphyrinic Nanoarchitectures ‎[16 bytes]
419. (hist) ‎Self-Organization of Colloidal Nanoparticles ‎[16 bytes]
420. (hist) ‎Self-Organized Nanostructure Formation on Surfaces ‎[16 bytes]
421. (hist) ‎Semiconductor Nanodevice Modeling ‎[16 bytes]
422. (hist) ‎Semiconductor Nanomaterials ‎[16 bytes]
423. (hist) ‎Semiconductor Nanoparticles for Photocatalysis ‎[16 bytes]
424. (hist) ‎Semiconductor Nanotransistors ‎[16 bytes]
425. (hist) ‎Semiconductor Quantum Dots ‎[16 bytes]
426. (hist) ‎Semiconductor Quantum Wires ‎[16 bytes]
427. (hist) ‎SiGe/Si Heterostructures ‎[16 bytes]
428. (hist) ‎Silicon Nanocrystals in SiO2 Thin Layers ‎[16 bytes]
429. (hist) ‎Silicon Nanowires ‎[16 bytes]
430. (hist) ‎Silicon Quantum Dots ‎[16 bytes]
431. (hist) ‎Silicon Surface Nanooxidation ‎[16 bytes]
432. (hist) ‎Silver Nanoparticles ‎[16 bytes]
433. (hist) ‎Single Wall Carbon Nanotubes ‎[16 bytes]
434. (hist) ‎Single-Electron Devices ‎[16 bytes]
435. (hist) ‎Single-Electron Dynamics ‎[16 bytes]
436. (hist) ‎Single-Electron Transistors ‎[16 bytes]
437. (hist) ‎Sliding, Rotation, and Rolling of Nanoparticles ‎[16 bytes]
438. (hist) ‎Soft and Hard Magnetic Nanomaterials ‎[16 bytes]
439. (hist) ‎Sol-Gel Derived Nanocrystalline Semiconductor Oxide Gas Sensors ‎[16 bytes]
440. (hist) ‎Solid Lipid Nanoparticles and Nanostructured Lipid Carriers ‎[16 bytes]
441. (hist) ‎Solid-State Synthesis of Carbon Nanotubes ‎[16 bytes]
442. (hist) ‎Sonochemical Synthesis of Nanomaterials ‎[16 bytes]
443. (hist) ‎Spinels ‎[16 bytes]
444. (hist) ‎Stealth and Biomimetic Core-Corona Nanoparticles ‎[16 bytes]
445. (hist) ‎Stilbenoid Dendrimers ‎[16 bytes]
446. (hist) ‎Strain Effects in Manganite Nanostructured Thin Films ‎[16 bytes]
447. (hist) ‎Structural Characterization of Single-Walled Carbon Nanotubes ‎[16 bytes]
448. (hist) ‎Structure and Microstructure of Nanocrystals ‎[16 bytes]
449. (hist) ‎Structure of Mesoporous Silica ‎[16 bytes]
450. (hist) ‎Structure of Nanoclusters by High-Resolution Transmission Electron Microscopy ‎[16 bytes]
451. (hist) ‎Structures of Epitaxial Quantum Dots ‎[16 bytes]
452. (hist) ‎Superhard Nanocomposites ‎[16 bytes]
453. (hist) ‎Superlattices ‎[16 bytes]
454. (hist) ‎Superplasticity in Nanoceramics ‎[16 bytes]
455. (hist) ‎Supramolecular Architectures ‎[16 bytes]
456. (hist) ‎Supramolecular Coordination Polymers ‎[16 bytes]
457. (hist) ‎Surface Functionalization of Semiconducting Nanoparticles ‎[16 bytes]
458. (hist) ‎Surface Nano-Alloying ‎[16 bytes]
459. (hist) ‎Synthesis of Covalent Nanoparticles by CO2 Laser ‎[16 bytes]
460. (hist) ‎Synthesis of Inorganic Nanowires and Nanotubes ‎[16 bytes]
461. (hist) ‎Synthesis of Metal Chalcogenide Nanoparticles ‎[16 bytes]
462. (hist) ‎Synthesis of Nanomaterials Using Microemulsion Process ‎[16 bytes]
463. (hist) ‎Synthetic Nanoinorganics by Biomolecular Templating ‎[16 bytes]
464. (hist) ‎Techniques in Electrochemical Nanotechnology ‎[16 bytes]
465. (hist) ‎Theory of Semiconductor Quantum Devices ‎[16 bytes]
466. (hist) ‎Thermal Conductivity ‎[16 bytes]
467. (hist) ‎Thermal Conductivity of Semiconductor Nanostructures ‎[16 bytes]
468. (hist) ‎Titanium Dioxide ‎[16 bytes]
469. (hist) ‎Transition Metal Acetylide Nanostructures ‎[16 bytes]
470. (hist) ‎Transition Metal Atoms on Nanocarbon Surfaces ‎[16 bytes]
471. (hist) ‎Transition Metal Nanocluster Assemblies ‎[16 bytes]
472. (hist) ‎Transition Metals-Based Nanomaterials for Signal Transduction ‎[16 bytes]
473. (hist) ‎Transport in Self-Assembled Quantum Dots ‎[16 bytes]
474. (hist) ‎Transport in Semiconductor Nanostructures ‎[16 bytes]
475. (hist) ‎UHV-SPM Nanofabrication ‎[16 bytes]
476. (hist) ‎Unconventional Nanolithography ‎[16 bytes]
477. (hist) ‎Vacuum Nanoelectronics ‎[16 bytes]
478. (hist) ‎Visible-Light-Sensitive Photocatalysts ‎[16 bytes]
479. (hist) ‎Wire Explosion ‎[16 bytes]
480. (hist) ‎X-Ray Characterization of Nanolayers ‎[16 bytes]
481. (hist) ‎X-Ray Microscopy and Nanodiffraction ‎[16 bytes]
482. (hist) ‎X-Ray Photoelectron Spectroscopy of Nanostructured Materials ‎[16 bytes]
483. (hist) ‎Yttrium Oxide Nanocrystals ‎[16 bytes]
484. (hist) ‎Zinc Oxide Nanostructures ‎[16 bytes]
485. (hist) ‎Zinc Oxide ‎[16 bytes]
486. (hist) ‎Ab Initio DFT Simulations of Nanostructures ‎[35 bytes]
487. (hist) ‎Bimetallic Ferrofluids ‎[36 bytes]
488. (hist) ‎Quantum Dot Atoms, Molecules, and Superlattices ‎[42 bytes]
489. (hist) ‎Asdsad ‎[47 bytes]
490. (hist) ‎Test5 ‎[98 bytes]
491. (hist) ‎SciencePedia ‎[126 bytes]
492. (hist) ‎Who's Who ‎[169 bytes]
493. (hist) ‎Propose a New Article ‎[382 bytes]
494. (hist) ‎Main Page ‎[493 bytes]
495. (hist) ‎Analytical Characterization of Single Wall Carbon Nanotubes ‎[1,519 bytes]
496. (hist) ‎Test ‎[1,675 bytes]
497. (hist) ‎Drexler K. Erik ‎[1,964 bytes]
498. (hist) ‎Merkle Ralph C. ‎[2,361 bytes]
499. (hist) ‎Weekly Featured Author ‎[3,315 bytes]
500. (hist) ‎Feringa Ben ‎[4,086 bytes]

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