摘要
Alloying a second metal in a parent metal is an efficient way to improve the catalytic performances of monometallic nanocatalysts,thus the understanding of the alloying effects on the catalytic properties of bimetallic nanocatalysts is of great significance.Herein,we demonstrate the synthesis of self-supported composites of thin(ca.3.8 nm)Pt–Sn crosslinked nanowires(PtSn/SnO_(2)CNs)with a Pt:Sn molar ratio of 3–4:1 via a one-pot hydrothermal method.The growth mechanism of the CNs consisted of spontaneous hydrolysis and reduction of metal ions in water solution and the subsequent oriented attachment of M(OH)_(x)(M=Pt,Sn)particulate species under reduction by poly(vinylpyrrolidone)during hydrothermal processing.The nature of metal precursors,capping reagents and reduction rate has shown great influences on the shaping of the nanocatalysts into CNs.The PtSn/SnO_(2)catalyst exhibited 87%selectivity(superior over pure Pt nanoparticles(NPs)and physical mixtures of Pt and SnO_(2)NPs)under ambient conditions for the hydrogenation of cinnamaldehyde,owing to the formation of a Pt–Sn alloy in the CNs.The PtSn/SnO_(2)catalyst also showed good recyclability and stability in chemoselectivity for cycle experiments of the catalysts.
基金
supported by the National Science Foundation of China(NSFC)(Grant No.21025101,21271011,21573005,and 21321001)
Y.W.Z.particularly appreciates the financial aid of China National Funds for Distinguished Young Scientists from the NSFC.
