Rational Design of Highly Efficient PdIn-In 2 O 3 Interfaces through Capture-alloying Strategy for Benzyl Alcohol Partial Oxidation

Well-dispersed PdIn bimetallic alloy nanoparticles (1～4 nm) were immobilized on mesostructured silica through an in situ capture-alloying strategy and PdIn-In 2 O 3 interfaces were rationally constructed by changing the In 2 O 3 loading and varying the reduction temperature. The catalytic performanc...

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Veröffentlicht in:	ACS applied materials & interfaces 2023-04, Vol.15 (15), p.19653-19664
Hauptverfasser:	Bai, Peng, Zhao, Zhenxiang, Zhang, Yonghui, He, Zhengke, Liu, Yonghui, Wang, Chunzheng, Ma, Shixingwang, Wu, Pingping, Zhao, Lianming, Mintova, Svetlana, Yan, Zifeng
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container_end_page	19664
container_issue	15
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container_title	ACS applied materials & interfaces
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creator	Bai, Peng Zhao, Zhenxiang Zhang, Yonghui He, Zhengke Liu, Yonghui Wang, Chunzheng Ma, Shixingwang Wu, Pingping Zhao, Lianming Mintova, Svetlana Yan, Zifeng
description	Well-dispersed PdIn bimetallic alloy nanoparticles (1～4 nm) were immobilized on mesostructured silica through an in situ capture-alloying strategy and PdIn-In 2 O 3 interfaces were rationally constructed by changing the In 2 O 3 loading and varying the reduction temperature. The catalytic performance for benzyl alcohol partial oxidation was evaluated and a catalytic synergy was observed. The Pd-rich PdIn-In 2 O 3 interface is prone to formation on the catalyst with a low In 2 O 3 loading after reduced at 300 o C. It was demonstrated that the Pd-rich PdIn-In 2 O 3 interface is more active for benzyl alcohol partial oxidation than In-rich Pd 2 In 3 species which is likely to be formed at a high reduction temperature (400 o C). The high catalytic activity on Pd-rich PdIn-In 2 O 3 interface was attributed to the exposure of more Pd-enriched active sites and an optimized PdIn-In 2 O 3 /Pd assemble ratio enhanced the oxygen transfer during the partial oxidation. The DFT calculation confirmed that the Pd-rich Pd 3 In 1 (111)-In 2 O 3 interface facilitated the activation of oxygen molecules, resulting in a high catalytic activity.
doi_str_mv	10.1021/acsami.3c00810
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The catalytic performance for benzyl alcohol partial oxidation was evaluated and a catalytic synergy was observed. The Pd-rich PdIn-In 2 O 3 interface is prone to formation on the catalyst with a low In 2 O 3 loading after reduced at 300 o C. It was demonstrated that the Pd-rich PdIn-In 2 O 3 interface is more active for benzyl alcohol partial oxidation than In-rich Pd 2 In 3 species which is likely to be formed at a high reduction temperature (400 o C). The high catalytic activity on Pd-rich PdIn-In 2 O 3 interface was attributed to the exposure of more Pd-enriched active sites and an optimized PdIn-In 2 O 3 /Pd assemble ratio enhanced the oxygen transfer during the partial oxidation. 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The catalytic performance for benzyl alcohol partial oxidation was evaluated and a catalytic synergy was observed. The Pd-rich PdIn-In 2 O 3 interface is prone to formation on the catalyst with a low In 2 O 3 loading after reduced at 300 o C. It was demonstrated that the Pd-rich PdIn-In 2 O 3 interface is more active for benzyl alcohol partial oxidation than In-rich Pd 2 In 3 species which is likely to be formed at a high reduction temperature (400 o C). The high catalytic activity on Pd-rich PdIn-In 2 O 3 interface was attributed to the exposure of more Pd-enriched active sites and an optimized PdIn-In 2 O 3 /Pd assemble ratio enhanced the oxygen transfer during the partial oxidation. 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The catalytic performance for benzyl alcohol partial oxidation was evaluated and a catalytic synergy was observed. The Pd-rich PdIn-In 2 O 3 interface is prone to formation on the catalyst with a low In 2 O 3 loading after reduced at 300 o C. It was demonstrated that the Pd-rich PdIn-In 2 O 3 interface is more active for benzyl alcohol partial oxidation than In-rich Pd 2 In 3 species which is likely to be formed at a high reduction temperature (400 o C). The high catalytic activity on Pd-rich PdIn-In 2 O 3 interface was attributed to the exposure of more Pd-enriched active sites and an optimized PdIn-In 2 O 3 /Pd assemble ratio enhanced the oxygen transfer during the partial oxidation. 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title	Rational Design of Highly Efficient PdIn-In 2 O 3 Interfaces through Capture-alloying Strategy for Benzyl Alcohol Partial Oxidation
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