Issue 12, 2017

A galvanic replacement-based Cu2O self-templating strategy for the synthesis and application of Cu2O–Ag heterostructures and monometallic (Ag) and bimetallic (Au–Ag) hollow mesocages

Abstract

Polyhedral Cu2O microparticles as self-templates have been well-demonstrated for the synthesis of Cu2O–M heterostructures (M = Au, Pd, Pt) and Au nano/mesocages utilizing the galvanic replacement reaction (GRR) strategy. However, reports on GRR-based fabrication of Cu2O–Ag heterostructures and the ensuing Ag mesocages are scanty. There is no report that describes the phenomenon of facet selectivity during the GRR-based deposition of Ag on Cu2O template particles. Here, we have identified the underlying rationale behind the observed difficulty in nucleating Ag nanoparticles on an octahedral Cu2O self-template particle. Utilization of an appropriately chosen surfactant/complexant for the silver precursor helps in demonstrating the successful fabrication of Cu2O–Ag heterostructures (octahedral, cubic) with a tunable loading density of Ag NPs on the Cu2O surfaces. This is achieved using Cu2O template particles that undergo GRR with silver nitrate in the presence of nitric acid, and 5-sulfosalicylic acid as the surfactant (key role players). We provide evidence that supports facet selectivity during the deposition of Ag NPs on Cu2O cuboctahedral particles. Hollow octahedral Ag and Au–Ag bimetallic mesocages are fabricated that have rough surfaces, uniform morphology, and excellent shape retention. The fabricated heterostructures and mesocages act as an excellent SERS substrate. This is the first report on the rational synthesis of octahedral Cu2O–Ag heterostructures and octahedral hollow metallic mesocages utilizing the Cu2O self-templating strategy along with the demonstration of facet selectivity of Ag deposition on Cu2O template particles through GRR. The current approach offers a facile and versatile protocol for the synthesis of Cu2O–metal heterostructures and hollow noble metal mesocages.

Graphical abstract: A galvanic replacement-based Cu2O self-templating strategy for the synthesis and application of Cu2O–Ag heterostructures and monometallic (Ag) and bimetallic (Au–Ag) hollow mesocages

Supplementary files

Article information

Article type
Paper
Submitted
16 Jan 2017
Accepted
21 Feb 2017
First published
21 Feb 2017

CrystEngComm, 2017,19, 1669-1679

A galvanic replacement-based Cu2O self-templating strategy for the synthesis and application of Cu2O–Ag heterostructures and monometallic (Ag) and bimetallic (Au–Ag) hollow mesocages

R. Bakthavatsalam and J. Kundu, CrystEngComm, 2017, 19, 1669 DOI: 10.1039/C7CE00110J

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