Ho2O@C84: Crystallographic Evidence Showing Linear Metallic Oxide Cluster Encapsulated in IPR Fullerene Cage of D 2d (51591)‑C84

Ho2O@C84: Crystallographic Evidence Showing Linear Metallic Oxide Cluster Encapsulated in IPR Fullerene Cage of D 2d (51591)‑C84

Fullerene C84 is the third-most-abundant species after C60 and C70. In the past decade, a variety of C84-based clusterfullerenes have been well-studied experimentally, which otherwise do not include oxide clusterfullerenes (OCFs). In this work, we report a comprehensive inspection of Ho2O@C84, inclu...

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Bibliographic Details
Published in:Inorganic chemistry Vol. 58; no. 16; pp. 10905 - 10911
Main Authors: Cong, Hailin, Liu, Along, Hao, Yajuan, Feng, Lai, Slanina, Zdenek, Uhlik, Filip
Format: Journal Article
Language:English
Published: American Chemical Society 19-08-2019
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Summary:Fullerene C84 is the third-most-abundant species after C60 and C70. In the past decade, a variety of C84-based clusterfullerenes have been well-studied experimentally, which otherwise do not include oxide clusterfullerenes (OCFs). In this work, we report a comprehensive inspection of Ho2O@C84, including its mass, spectroscopic, crystallographic, electrochemical (EC), and density functional theory (DFT) studies. Importantly, crystallographic data reveal an IPR cage of D 2d (51591)-C84 with a linear endohedral Ho–O–Ho cluster, indicating that the compression effect of the C84 cage is less pronounced compared to that of a smaller cage. The experimentally observed structure is confirmed by DFT computations, which also verify its superior stability. Further studies suggest that Ho2O@C84 has reduced EC and HOMO–LUMO gaps compared to those of empty species, again demonstrating the effect of cluster encapsulation.
ISSN:0020-1669
1520-510X
DOI:10.1021/acs.inorgchem.9b01318