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Characterization of Cu-Coated Ni Mesh with Self-Assembled Monolayers and FTIR Analysis

This study investigates the structural and functional properties of Cu-coated nickel mesh with self-assembled monolayers (SAMs) using FTIR spectroscopy. Specifically, the research examines monolayers formed from 1-dodecanethiol and their interaction with the Cu substrate. Key parameters such as mesh thickness, transmission spectra before and after coating, and the effects of vapor deposition of nonanoic acid on copper oxide surfaces are explored. Results contribute to understanding surface interactions and the potential applications of chiral carbon-based thin films in nanotechnology.

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Characterization of Cu-Coated Ni Mesh with Self-Assembled Monolayers and FTIR Analysis

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  1. shiny side Ni mesh dull side Ni mesh Thickness Ni mesh 10 mm Cu-coated 10 mm before Cu-coated monolayer trilayer

  2. DPPC metal glycerol chiral carbon trilayer monolayer

  3. DPPC chiral carbon metal

  4. SAMs Self-Assembled Monolayers

  5. Alkanethiolate SAMS 10 mm FTIR transmission spectra of a Cu-deposited mesh (dotted, upper trace) upon coating with a SAM of 1-dodecanethiol (solid, black trace). Williams et al., Nanotechnology, 15 S495-S503 (2004)

  6. CH2 Wagging Progressions C18 C16 C15 C14 C12 C8 Rodriguez et al., J. Chem. Phys. 121 8671-75 (2004)

  7. Nonanoic Acid Monolayer by vapor deposition on copper oxide res = 4.0 cm-1, 600 scans

  8. Nonanoic Acid Monolayer by vapor deposition on Ag and Cu vs. . . res = 4.0 cm-1, 600 scans res = 2.0 cm-1, 500 scans

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