超原子
氢化物
氯金酸
结晶学
化学
胶体金
催化作用
表征(材料科学)
材料科学
金属
纳米技术
物理化学
计算化学
纳米颗粒
电子结构
有机化学
作者
Jia Dong,Zehua Gao,Lai‐Sheng Wang
摘要
Gold is the most inert metal and does not form a bulk hydride. However, gold becomes chemically active in the nanometer scale and gold nanoparticles have been found to exhibit important catalytic properties. Here, we report the synthesis and characterization of a highly stable ligand-protected gold hydride nanocluster, [Au22H3(dppee)7]3+ [dppee = bis(2-diphenylphosphino) ethyl ether]. A synthetic method is developed to obtain high purity samples of the gold trihydride nanocluster with good yields. The properties of the new hydride cluster are characterized with different experimental techniques, as well as theoretical calculations. Solid samples of [Au22H3(dppee)7]3+ are found to be stable under ambient conditions. Both experimental evidence and theoretical evidence suggest that the Au22H3 core of the [Au22H3(dppee)7]3+ hydride nanocluster consists of two Au11 units bonded via two triangular faces, creating six uncoordinated Au sites at the interface. The three H atoms bridge the six uncoordinated Au atoms at the interface. The Au11 unit behaves as an eight-electron trivalent superatom, forming a superatom triple bond (Au11 ≡ Au11) in the [Au22H3(dppee)7]3+ trihydride nanocluster assisted by the three bridging H atoms.
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