Abstract
We present synthesis of a free-standing monolayer film of gold nanoparticles (AuNPs) which are linked by covalent bonds. In the method developed, the free-standing film is obtained by chemical cross-linking of the AuNPs of the core diameter of 5.6 nm that form a dense monolayer at the oil–liquid interface. As the cross-linking agent, naphthalene dianhydride derivative, which forms amide bonds with the ligand molecules, is used. The AuNPs are coated with aminothiolate ligands that can change their character from a hydrophilic to a hydrophobic one via the reversible protonation/deprotonation mechanism. When adsorbed at the oil–water interface, such functionalized AuNPs display amphiphilic (Janus-like) structure and self-assemble into a highly stable monolayer. To bring the AuNPs at the oil–water interface, an excitation of the system that leads to the formation of the oil-in-water emulsion is required. After the excitation, the AuNPs are transported onto the oil–water interface on the surface of the oil dro...
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