Controlled Electroless Deposition of Noble Metal Nanoparticle Films on Germanium Surfaces

Citations Over TimeTop 10% of 2002 papers

Abstract

Thin noble metal films have been prepared as a result of the immersion of germanium substrates into dilute, aqueous solutions of AuCl4-, PdCl42-, or PtCl42-, respectively. Deposition proceeds via galvanic displacement in the absence of fluoride, pH adjusters, complexing agents, or external reducing agents. This manner of metal deposition serves as a cost-effective, high-throughput methodology with control over surface morphology and deposition rate by modulation of plating parameters such as concentration, temperature, and immersion time.

Related Papers

• → Galvanic Deposition of Nanostructured Noble-Metal Films on Silicon(2005)52 cited
• → Formation mechanism of plasmonic silver nanohexagonal particles made by galvanic displacement reaction(2016)11 cited
• → Synthesis and characterization of copper–silver core–shell nanowires obtained by electrodeposition followed by a galvanic replacement reaction in aqueous solution; comparison with a galvanic replacement reaction in ionic media(2015)8 cited
• → Parametric Study of the Galvanic Reaction Parameters on the Synthesis of 1-Dimensional Cu-Ag Nanostructures(2023)1 cited
• → Hollow Sb₉₃Pt₇Nanospheres Prepared by Galvanic Displacement Reaction for a Highly Li Reactive Material(2008)1 cited