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Self-assembled monolayers of novel surface-bound dendrons: peripheral structure determines surface organization
Authors:Dong Bin  Huo Fengwei  Zhang Lu  Yang Xunyu  Wang Zhiqiang  Zhang Xi  Gong Shaoyun  Li Jinghong
Institution:Key Lab of Supramolecular Structure & Materials College of Chemistry, Jilin University Changchun 130023, PR China.
Abstract:The synthetic and functional versatility of dendrimers and their well-defined shapes make them attractive molecules for surface modification. We synthesized six structurally very similar surface-bound dendrons and used them as building blocks for the preparation of self-assembled monolayers (SAMs) on a gold surface. We studied the effects of the surface-bound dendron's main structure, peripheral substituents, and the coadsorption process on its self-assembling behavior. Using scanning tunneling microscopy (STM), we observed nanostripes for SAMs of the surface-bound dendron consisting of symmetrical benzene rings. When we changed the symmetrical dendron's structure slightly, by increasing or decreasing the numbers of benzene rings at one wedge, we found no ordered structures were formed by the asymmetrical dendrons. We also introduced two kinds of substituents, heptane chains and oligo(ethylene oxide) chains, to the symmetrical dendron's periphery. Heptane chains appear to enhance the interaction between symmetrical backbones, leading to the formation of stripes, while oligo(ethylene oxide) chains appear to weaken the interaction between symmetrical backbones, resulting in a homogeneous structure. Dendrons with both heptane and oligo(ethylene oxide) chains exhibit nanophase separation in a confined state, leading to the formation of a honeycomb structure. Electrochemical studies provide additional evidence for understanding the resulting surface organizations: surface-bound dendrons with symmetrical structures form denser monolayers than their asymmetrical analogues; SAMs comprising peripherally substituted dendrons exhibit blocking effects proportionate to their hydrophilic fraction.
Keywords:dendrimers  electrochemistry  scanning tunneling microscopy  self‐assembled monolayers  surface chemistry
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