# Phase Engineering of Nanogold: Non‐Close Packed Square Planes in A′B′ Stacking with a 0.5 Å Channel

**Authors:** Yitong Wang, Zhongyu Liu, Christopher G. Gianopoulos, Wei Zhang, Dominic Alfonso, Guiying He, Kristin Kirschbaum, Meng Zhou, Rongchao Jin

PMC · DOI: 10.1002/adma.202517188 · Advanced Materials (Deerfield Beach, Fla.) · 2025-12-16

## TL;DR

Scientists created a new gold nanocluster structure with a unique 0.5 Å channel, leading to different electronic properties and potential applications in technology and biology.

## Contribution

A new non-close-packed phase of gold nanoclusters with a 0.5 Å channel is synthesized and characterized.

## Key findings

- The non-compact gold nanocluster has square planes stacked layer-by-layer with a 0.5 Å channel.
- The new phase shows a nearly two orders of magnitude shorter electronic excited-state lifetime compared to the fcc isomer.

## Abstract

Crystal phase engineering of inorganic materials is one of the most important strategies for achieving new material properties and functionality. Gold is well known to adopt the face‐centered‐cubic (fcc) structure, and it remains challenging to create new phases, but recent research on nanogold has provided exciting opportunities by achieving 2H (note: H denotes hexagonal), 4H, and body‐centered‐tetragonal (bct) phases. In the current work, an unusual non‐compact phase in 40‐atom gold nanoclusters is reported, which is in contrast to the close‐packed isomer of fcc structure. The non‐compact isomer exhibits exclusive square planes in a layer‐by‐layer stacking, hence giving rise to a unique 0.5 Å channel, whereas the fcc isomer is composed of close‐packed planes with a closed structure (i.e., no 1D channel). The two Au40 isomers lead to a nearly two orders of magnitude difference in electronic excited‐state lifetime. The attainment of the new non‐compact phase in nanogold presents potential opportunities in terahertz emission owing to the strong electron‐vibration coupling, ion channeling and ion selection, artificial photosynthesis, and biocatalysis.

Gold is well known to adopt the face‐centered‐cubic (fcc) structure. This work presents an unusual non‐close‐packed phase attained in a 40‐atom gold nanocluster, which is in contrast with the close‐packed fcc quasi‐isomer. The non‐compact structure exhibits exclusive square planes in a layer‐by‐layer stacking, hence, possessing a unique 0.5 Å channel. Its photoexcited state lifetime is nearly two orders of magnitude shorter than that of the fcc isomer.

## Full-text entities

- **Chemicals:** Au40 (-), Gold (MESH:D006046)

## Full text

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## Figures

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## References

42 references — full list in the complete paper: https://tomesphere.com/paper/PMC12878809/full.md

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Source: https://tomesphere.com/paper/PMC12878809