Atomically precise nanocluster may provide fresh direction for nanocatalysts

Atomically precise nanocluster may provide fresh direction for nanocatalysts
The copper nanoclusters formed beautiful red crystals. Credit: Journal of the American Chemical Society

A unique nanocluster of copper atoms created by KAUST researchers could serve as a roadmap to guide the design of new catalysts and imaging agents.

A is a type of nanoparticle in which researchers have pinpointed the precise arrangement of every atom, along with their bond lengths and bond angles. This detailed information enables researchers to predict the properties of related clusters, based on their composition and structures. "It provides a practical model for understanding the intrinsic correlations between and physical-chemical properties through a combination of experiments and ," says Ren-Wu Huang of the KAUST Catalysis Center, part of the team behind the new discovery.

Nanoclusters are typically 1–3 nanometers wide and organized into a and a shell. The atomic structure of the core can determine the nanocluster's structure, size and , while the shell affects its stability, solubility and catalytic activity.

Nanoclusters containing , silver and gold have potential uses as catalysts, or as nontoxic luminescent imaging agents in living cells. Although silver and are well studied, copper nanoclusters have been rather neglected, partly because the metal tends to react with oxygen in air.

Atomically precise nanocluster may provide fresh direction for nanocatalysts
The side (left) and top (right) views of the nanocluster reveal that it is a flat core of 17 copper atoms (green). The cluster has 64 more copper atoms in its shell (brown), along with molecules containing sulfur (yellow), nitrogen (blue) and carbon (grey). Hydrogen atoms are omitted for clarity. Credit: Journal of the American Chemical Society

The KAUST team has now created the largest copper-based nanocluster to date, and they are studying it with a range of techniques, including X-ray crystallography and electrospray ionization mass spectrometry. Each 2.8-nanometer-wide cluster contains 81 copper atoms, 46 benzenethiol molecules, 10tert-butylamine molecules and 32 hydride ions.

Nanoclusters generally have polyhedral cores surrounded by symmetrical shells. But the new copper nanocluster has a flat core of 17 copper atoms, arranged into a repeating pattern of triangles. "This kind of planar core has never been observed in previously reported metal nanoclusters," says Osman M. Bakr, who led the team.

The nanocluster also has a highly unusual hemispherical shell that is 1.5-nanometers high and covered by benzenethiol molecules. Differences between the curved and flat surfaces of the hemisphere suggest that the flat face has a higher reactivity. In addition, computational calculations provided evidence that the arrangement of these molecules could help to ease the transfer of electrical charge between different clusters within a crystal, which could prove crucial in future applications.

"The development of copper nanoclusters is still in its infancy," says Huang. "Therefore, the next stage of our research will be the synthesis of copper nanoclusters with a bigger size and novel structure, and exploring their potential applications in the field of catalysis."

More information: Ren-Wu Huang et al. [Cu81(PhS)46(tBuNH2)10(H)32]3+ Reveals the Coexistence of Large Planar Cores and Hemispherical Shells in High-Nuclearity Copper Nanoclusters, Journal of the American Chemical Society (2020). DOI: 10.1021/jacs.0c00541

Citation: Atomically precise nanocluster may provide fresh direction for nanocatalysts (2020, August 17) retrieved 2 December 2022 from
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