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1. Planar B 41 − and B 42 − clusters with double-hexagonal vacancies

   https://doi.org/10.1039/C9NR09522E  

   Bai, Hui ; Chen, Teng-Teng ; Chen, Qiang ; Zhao, Xiao-Yun ; Zhang, Yang-Yang ; Chen, Wei-Jia ; Li, Wan-Lu ; Cheung, Ling Fung ; Bai, Bing ; Cavanagh, Joseph ; et al ( December 2019 , Nanoscale)

   Since the discovery of the B 40 borospherene, research interests have been directed to the structural evolution of even larger boron clusters. An interesting question concerns if the borospherene cages persist in larger boron clusters like the fullerenes. Here we report a photoelectron spectroscopy (PES) and computational study on the structures and bonding of B 41 − and B 42 − , the largest boron clusters characterized experimentally thus far. The PE spectra of both clusters display broad and complicated features, suggesting the existence of multiple low-lying isomers. Global minimum searches for B 41 − reveal three low-lying isomers ( I–III ), which are all related to the planar B 40 − structure. Isomer II ( C s , 1 A′) possessing a double hexagonal vacancy is found to agree well with the experiment, while isomers I ( C s , 3 A′′) and III ( C s , 1 A′) both with a single hexagonal vacancy are also present as minor isomers in the experiment. The potential landscape of B 42 − is found to be much more complicated with numerous low-lying isomers ( VII–XII ). The quasi-planar structure VIII ( C 1 , 2 A) containing a double hexagonal vacancy is found to make major contributions to the observed PE spectrum of B 42 − , while the other low-lying isomers may also be present to give rise to a complicated spectral pattern. Chemical bonding analyses show isomer II of B 41 − ( C s , 1 A′) and isomer VIII of B 42 − ( C 1 , 2 A) are π aromatic, analogous to that in the polycyclic aromatic hydrocarbon C 27 H 13 + ( C 2v , 1 A 1 ). Borospherene cage isomers are also found for both B 41 − and B 42 − in the global minimum searches, but they are much higher energy isomers. 

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2. PrB 7 − : A Praseodymium-Doped Boron Cluster with a Pr II Center Coordinated by a Doubly Aromatic Planar η 7 -B 7 3− Ligand

   https://doi.org/10.1002/anie.201703111  

   Chen, Teng-Teng ; Li, Wan-Lu ; Jian, Tian ; Chen, Xin ; Li, Jun ; Wang, Lai-Sheng ( June 2017 , Angewandte Chemie International Edition)
3. PrB 7 − : A Praseodymium‐Doped Boron Cluster with a Pr II Center Coordinated by a Doubly Aromatic Planar η 7 ‐B 7 3− Ligand

   https://doi.org/10.1002/ange.201703111  

   Chen, Teng‐Teng ; Li, Wan‐Lu ; Jian, Tian ; Chen, Xin ; Li, Jun ; Wang, Lai‐Sheng ( May 2017 , Angewandte Chemie)

   The structure and bonding of a Pr‐doped boron cluster (PrB₇⁻) are investigated using photoelectron spectroscopy and quantum chemistry. The adiabatic electron detachment energy of PrB₇⁻is found to be low [1.47(8) eV]. A large energy gap is observed between the first and second detachment features, indicating a highly stable neutral PrB₇. Global minimum searches and comparison between experiment and theory show that PrB₇⁻has a half‐sandwich structure with C_6vsymmetry. Chemical bonding analyses show that PrB₇⁻can be viewed as a Pr^II[η⁷‐B₇³⁻] complex with three unpaired electrons, corresponding to a Pr (4f²6s¹) open‐shell configuration. Upon detachment of the 6s electron, the neutral PrB₇cluster is a highly stable Pr^III[η⁷‐B₇³⁻] complex with Pr in its favorite +3 oxidation state. The B₇³⁻ligand is found to be highly stable and doubly aromatic with six delocalized π and six delocalized σ electrons and should exist for a series of lanthanide M^III[η⁷‐B₇³⁻] complexes.

    

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4. B 31 − and B 32 − : chiral quasi-planar boron clusters

   https://doi.org/10.1039/C9NR01524H  

   Chen, Qiang ; Chen, Teng-Teng ; Li, Hai-Ru ; Zhao, Xiao-Yun ; Chen, Wei-Jia ; Zhai, Hua-Jin ; Li, Si-Dian ; Wang, Lai-Sheng ( May 2019 , Nanoscale)

   Chirality plays an important role in nature. Nanoclusters can also exhibit chiral properties. We report herein a joint experimental and theoretical investigation on the geometric and electronic structures of B 31 − and B 32 − clusters, using photoelectron spectroscopy in combination with first-principles calculations. Two degenerate quasi-planar chiral C 1 enantiomers ( I and II , 1 A) with a central hexagonal vacancy are identified as the global minima of B 31 − . For B 32 − , two degenerate boat-like quasi-planar chiral C 2 structures ( VI and VII , 2 A) with a central hexagonal vacancy are also found as the global minima, with a low-lying chair-like C i B 32 − ( VIII , 2 A u ) also present in the experiment as a minor isomer. The chiral conversions in quasi-planar B 31 − and B 32 − clusters are investigated and relatively low barriers are found due to the high flexibility of these monolayer clusters, which feature multiple delocalized σ and π bonds over buckled molecular surfaces. 

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5. Photoelectron Spectroscopy and Theoretical Study of Di-Copper–Boron Clusters: Cu 2 B 3 – and Cu 2 B 4 –

   https://doi.org/10.1021/acs.jpca.3c02417  

   Pozdeev, Anton S. ; Chen, Wei-Jia ; Choi, Hyun Wook ; Kulichenko, Maksim ; Yuan, Dao-Fu ; Boldyrev, Alexander I. ; Wang, Lai-Sheng ( June 2023 , The Journal of Physical Chemistry A)