Kinetically Controlled Synthesis of Rhodium Nanocrystals with Different Shapes and a Comparison Study of Their Thermal and Catalytic Properties

Ming Zhao, Zitao Chen, Yifeng Shi, Zachary D. Hood, Zhiheng Lyu, Minghao Xie, Miaofang Chi, Younan Xia

Research output: Contribution to journalArticlepeer-review

36 Scopus citations

Abstract

We report the synthesis of Rh nanocrystals with different shapes by controlling the kinetics involved in the growth of preformed Rh cubic seeds. Specifically, Rh nanocrystals with cubic, cuboctahedral, and octahedral shapes can all be obtained from the same cubic seeds under suitable reduction kinetics for the precursor. The success of such a synthesis also relies on the use of a halide-free precursor to avoid oxidative etching, as well as the involvement of a sufficiently high temperature to remove Br- ions from the seeds while ensuring adequate surface diffusion. The availability of Rh nanocrystals with cubic and octahedral shapes allows for an evaluation of the facet dependences of their thermal and catalytic properties. The data from in situ electron microscopy studies indicate that the cubic and octahedral Rh nanocrystals can keep their original shapes up to 700 and 500 °C, respectively. When tested as catalysts for hydrazine decomposition, the octahedral nanocrystals exhibit almost 4-fold enhancement in terms of H2 selectivity relative to the cubic counterpart. As for ethanol oxidation, the order is reversed, with the cubic nanocrystals being about three times more active than the octahedral sample.

Original languageEnglish
Pages (from-to)6293-6302
Number of pages10
JournalJournal of the American Chemical Society
Volume143
Issue number16
DOIs
StatePublished - Apr 28 2021

Funding

This work was supported in part by a grant from NSF (CHE-1804970) and start-up funds from the Georgia Institute of Technology. Microscopy and XRD analyses were conducted at Institute of Electronics and Nanotechnology (IEN, Georgia Institute of Technology) supported by the NSF (ECCS-1542174). Part of the electron microscopy analyses was carried out in the Center for Nanophase Materials Sciences in ORNL, which is a DOE Office of Science User Facility (M.C. and Z.D.H.). Z.D.H. gratefully acknowledges support from the NSF Graduate Research Fellowship (DGE-1650044) and the Georgia Tech-ORNL Fellowship.

FundersFunder number
Georgia Tech-ORNL
National Science Foundation1804970, CHE-1804970
Georgia Institute of TechnologyDGE-1650044, ECCS-1542174

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