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Chemical, Thermal, and Ultrasonic Stability of Hybrid Nanoparticles and Nanoparticle Multilayer Films

2005; American Chemical Society; Volume: 18; Issue: 1 Linguagem: Inglês

10.1021/cm0518980

1520-5002

Steven R. Isaacs, Hosun Choo, Weon-Bae Ko, Young‐Seok Shon,

Nanomaterials for catalytic reactions

Gold nanoparticles stabilized by thiolates derived from normal and ω-functionalized alkane- and arenethiols (HS(CH2)nCH3, HS(CH2)10COOH, HS(CH2)11OH, HSC6H4NH2, HSCH2CH2C6H5, and HSCH2C6H4C(CH3)3) were synthesized. Differences in their chemical and ultrasonic stabilities were studied using UV−vis spectroscopy. The results showed that these stabilities of monolayer-protected nanoparticles were greatly influenced by the structure and functionality of the monolayer surrounding a nanoparticle core. The selective functionalization of the nanoparticle allowed us to prepare hybrid nanostructures (nanoparticle multilayer assemblies) with different compositions and functionalities. This paper also presents an investigation of the chemical, thermal, and ultrasonic treatments of these nanoparticle multilayer assemblies. The results suggest that the linkers used to build nanoparticle multilayer films govern the overall stability of hybrid nanostructures.