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Emergence of bulk-like structural features and 2D-to-3D transition in boron nanoclusters

Qiang Chen, Hyun Wook Choi, Guangfeng Wei, Deniz Kahraman, Rui‐Nan Yuan, Qin-Wei Zhang, Qiao‐Qiao Yan, Xiaoni Zhao, Cai-Yue Gao, Yuanyuan Ma, Rui-Li Wei, Yilin Gui, Zhi‐Pan Liu, Si‐Dian Li, Lai‐Sheng Wang

2025Proceedings of the National Academy of Sciences5 citationsDOIOpen Access PDF

Abstract

As an electron-deficient element, boron possesses fascinating three-dimensional structures and unconventional chemical bonds. Nanoclusters of boron have also been found to exhibit intriguing structural properties, observed to have predominantly planar structures, in stark contrast to bulk boron allotropes, which are composed of the ubiquitous B 12 icosahedral building blocks. Here, we report observation of the 2D-to-3D transition and bulk-like structural features in the size-selected boron clusters, as revealed by photoelectron spectroscopy, chemisorption experiments, and first-principles calculations. In the small to medium cluster size range, planar boron cluster anions are found to be unreactive and only B 46 – and B 56 – are observed to chemisorb C 2 H 4 and CO under ambient conditions, suggesting major structural transitions at these cluster sizes. Notably, B 56 – is also found to be able to chemisorb and activate CO 2 . The global minimum of B 46 – is found to adopt a core-shell structure (B 2 @B 44 – ), consisting of a B 2 core within a B 44 shell, reminiscent of the interstitial B 2 dumbbells in the high-pressure γ -B 28 form of bulk boron. More remarkably, both the global minimum and the second most stable isomer of B 56 – exhibit nest-like configurations, featuring the iconic B 12 icosahedral core surrounded by a B 44 half-shell (B 12 @ h- B 44 – ), signifying the onset of bulk-like structural characteristics in boron nanoclusters.

Topics & Concepts

Icosahedral symmetryNanoclustersBoronCluster (spacecraft)CrystallographyChemical physicsMaterials sciencePlanarChemisorptionChemistryTransition metalX-ray photoelectron spectroscopyCore (optical fiber)Boron oxideDensity functional theoryElectronic structureStructural changeNanotechnologyTranslational symmetrySuperatomMolecular physicsBoron and Carbon Nanomaterials ResearchBoron Compounds in ChemistryGraphene research and applications