Font Size: a A A
Keyword [Self-assembled Monolayers]
Result: 1 - 20 | Page: 1 of 10
1. Design And Assemblying Of Fluorescent Receptors For Molecular Recognition And Chemosensing
2. Self-assembled Monolayers: Analysis By In Situ SERS And Raman Mapping
3. Monolayer Assembly Of Polycyclic Acromatics At Solid-Liquid Interfaces, And Studies On Their Photophysical Behaviors And Sensing Performances
4. The Characterastion Of Self-Assembled Monolayers On Iron And Stainless Steel Surface And The Study By Electrochmical Method
5. Self-Assembled Monolayers On Gold, Platinum And Copper Single Crystal Surface: ECSTM And Molecular Simulation Study
6. Electrochemistry Of Porohyrin On Self-assembled Monolayers
7. Tarnishing Mechanism And Anti-tarnishing Techniques Of Gold And Silver Coins
8. Study On Conducting Polypyrrole Films For Electromagnetic Interference Shielding
9. Tribological Properties Of Modified Light Metals And Alloy Based On Self-Assembled Technology
10. Properties, Preparation And Applications Of Self-assembled Monolayers On Silicon/Silica Surfaces
11. Construction Of Nano/Microstructures Based On Cucurbit"n"uril
12. Tarnishing Mechanism And Anti-tarnishing Techniques Of Copper And Brass Coins
13. Design, Synthesis & Studies On Recognizing Properties Based On Functional Calix[4] Arenes By Click Chemistry
14. Studying On The Interface Electron Transfer Behavior Of Porphyrin ModifiedElectrodes
15. Synthesis And Applications Of The New Metalporphyrin And Their Self-assembled Monolayers In Electroanalytical Chemistry
16. The Spectrum, Electrochemistry And Self-Assembled Monolayers Of Aromaticity Heterocyclic Selenium Compounds
17. Research On Preparation And Tribological Characteristics Of Self-Assembled Monolayers
18. The Preparation Of Fluorescent Material And Its Application In Analytical Chemistry
19. Application Of Self-Assembled Monolayers Of Porphyrin In Electroanalytical Chemistry
20. Studies On The Preparation, Characterization And Analytical Application Of Short-chain Mercaptan Self-assembled Monolayers Gold Electrode
  <<First  <Prev  Next>  Last>>  Jump to