Dicarboxylic Acids Induced Tandem Transformation of Silver Nanocluster
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info:eu-repo/semantics/closedAccessDate
2023Author
Wang, ZhiGupta, Rakesh Kumar
Alkan, Fahri
Han, Bao-Liang
Feng, Lei
Huang, Xian-Qiang
Gao, Zhi-Yong
Tung, Chen-Ho
Sun, Di
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Show full item recordAbstract
Structural transformation of metal nanoclusters (NCs) is of great
ongoing interest regarding their synthesis, stability, and reactivity. Although sporadic
examples of cluster transformations have been reported, neither the underlying
transformation mechanism nor the intermediates are unambiguous. Herein, we have
synthesized a flexible 54-nuclei silver cluster (Ag54) by combining soft (t
BuC�C−)
and hard (n
PrCOO−) ligands. The existence of weakly coordinated n
PrCOO−
enhances the reactivity of Ag54, thus facilitating the dicarboxylic acid to induce
structural transformation. X-ray structural analyses reveal that Ag54 transforms to Ag28
cluster-based 2D networks (Ag28a and Ag28b) induced by H2suc (succinic acid) and
H2glu (glutaric acid), whereas with H2pda (2,2′-(1,2-phenylene)diacetic acid), a
discrete Ag28 cluster (Ag28c) is isolated. The key intermediate Ag17 that emerges
during the self-dissociation of Ag54 was isolated by using cryogenic recrystallization
and characterized by X-ray crystallography. The “tandem transformation” mechanism
for the structure evolution from Ag54 to Ag28a is established by time-dependent electrospray ionization mass spectrometry (ESIMS) and UV−vis spectroscopy. In addition, the catalytic activity in the 4-nitrophenol reduction follows the sequence Ag28c >
Ag28b > Ag28a > Ag54 due to more bare silver sites on the surface of the Ag28 cluster unit. Our findings not only open new avenues
to the synthesis of silver NCs but also shed light on a better understanding of the structural transformation mechanism from one
cluster to another or cluster-based metal−organic networks induced by dicarboxylates.