Font Size: a A A
Keyword [Scanning tunneling microscopy]
Result: 1 - 20 | Page: 1 of 10
1. Scanning Tunneling Microscopy Study Of Molecular Adsorbate Systems On Metal And Metal Oxide Surfaces
2. Self-Assembled Monolayers On Gold, Platinum And Copper Single Crystal Surface: ECSTM And Molecular Simulation Study
3. Enhanced Raman Scattering On Nanostructures From Nanowire SERS Sensor To Double-tip TERS Spectroscopy
4. Studies On The Electronic Properties Of Carbon Nano-hybrid Materials
5. Si (001) Surface Silicide Doped Nano-system Growth And Structure
6. The Synthesizing And Characterizing Of Surface Modified Gold Nanoparticles On Self-Assembled Super Lattices
7. The Study Of Design And Synthesis Of Organic Compound For Ultrahigh Density Information Storage
8. Self Assembled Carbon Nanostructures On Si(111)-7×7 Reconstruction Surfaces
9. Studies On The Interaction Of Molecules And Light-induced Reaction In Mono-molecule Layer
10. An Electrochemical And STM Study Of Fluorosurfactant FSN Self-assembly On Gold Single Crystal Surfaces
11. Enrichment Of N@C60 And Scanning Tunneling Microscopy Study Of Self-assembly Of C90 Molecules
12. Dispersion Of Gold Nanorods On Au(111) And Preliminary STM Induced Luminescence Studies
13. Design And Synthesize Of Covalently Linked Organic-amino Acid Conjugated Compounds And SPM Study On Their Self-assembly Behaviors At Interface
14. Tailoring Self-assembled Nanostructures At Interface By External Stimuli Investigation With Stm Technique
15. Surface Condensation Of One-dimensional Schiff Base Polymers On Hopg Investigated By Scanning Tunneling Microscopy
16. The Mediation With Ag Cluster For Adsorption State Of Fullerene At Room-Temperature
17. Study Of Graphene Nanoribbon With Scaning Tunneling Spectroscopy
18. Controllable Self-assembly Nanostructure Of Molecular Template With STM Technique
19. Organic Molecules For Molecular Devices Self-assembly Of Light Behavior
20. The Sio <sub> 2 </ Sub> / Si (001) Surface Of Er-related Nanostructures And Their Photoluminescence Properties, And
  <<First  <Prev  Next>  Last>>  Jump to