“Click” Dielectrics: Use of 1,3‐Dipolar Cycloadditions to Generate Diverse Core‐Shell Nanoparticle Structures with Applications to Flexible Electronics

We have synthesized a “universal ligand” incorporating a phosphonate surface anchor and a terminal alkyne moiety which binds to TiO₂ nanoparticles and exhibits excellent dispersity in organic solvents. The alkyne functionality permits attachment of azide terminated polymer shells using “click” chemistry. Thus TiO₂ core nanoparticles have been encapsulated with both polystyrene and poly(t‐butyl acrylate) shells. The TiO₂‐poly(t‐butyl acrylate) core shell nanoparticles are amenable to further chemical transformation into TiO₂‐poly(acrylic acid) nanoparticles through ester hydrolysis. These TiO₂‐polyacrylic acid nanoparticles are dispersible in aqueous solution. The resulting core‐shell nanoparticles have been incorporated as high K dielectric films in capacitor and organic thin film transistor devices and are promising new materials for flexible electronics applications.