Dealuminated Beta zeolite reverses Ostwald ripening for durable copper nanoparticle catalysts

Lujie Liu; Jiaye Lu; Yahui Yang; Wolfgang Ruettinger; Xinhua Gao; Ming Wang; Hao Lou; Zhandong Wang; Yifeng Liu; Xin Tao; Lina Li; Yong Wang; Hangjie Li; Hang Zhou; Chengtao Wang; Qingsong Luo; Huixin Wu; Kaidi Zhang; Jiabi Ma; Xiaoming Cao; Liang Wang; Feng Shou Xiao

doi:10.1126/science.adj1962

Dealuminated Beta zeolite reverses Ostwald ripening for durable copper nanoparticle catalysts

Lujie Liu, Jiaye Lu, Yahui Yang, Wolfgang Ruettinger, Xinhua Gao, Ming Wang, Hao Lou, Zhandong Wang, Yifeng Liu, Xin Tao, Lina Li, Yong Wang, Hangjie Li, Hang Zhou, Chengtao Wang, Qingsong Luo, Huixin Wu, Kaidi Zhang, Jiabi Ma^*, Xiaoming Cao^*Liang Wang^*, Feng Shou Xiao^*

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Research output: Contribution to journal › Article › peer-review

48 Citations (Scopus)

Abstract

Copper nanoparticle–based catalysts have been extensively applied in industry, but the nanoparticles tend to sinter into larger ones in the chemical atmospheres, which is detrimental to catalyst performance. In this work, we used dealuminated Beta zeolite to support copper nanoparticles (Cu/Beta-deAl) and showed that these particles become smaller in methanol vapor at 200°C, decreasing from ~5.6 to ~2.4 nanometers in diameter, which is opposite to the general sintering phenomenon. A reverse ripening process was discovered, whereby migratable copper sites activated by methanol were trapped by silanol nests and the copper species in the nests acted as new nucleation sites for the formation of small nanoparticles. This feature reversed the general sintering channel, resulting in robust catalysts for dimethyl oxalate hydrogenation performed with supported copper nanoparticles for use in industry.

Original language	English
Pages (from-to)	94-101
Number of pages	8
Journal	Science
Volume	383
Issue number	6678
DOIs	https://doi.org/10.1126/science.adj1962
Publication status	Published - 1 Jan 2024

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title = "Dealuminated Beta zeolite reverses Ostwald ripening for durable copper nanoparticle catalysts",

abstract = "Copper nanoparticle–based catalysts have been extensively applied in industry, but the nanoparticles tend to sinter into larger ones in the chemical atmospheres, which is detrimental to catalyst performance. In this work, we used dealuminated Beta zeolite to support copper nanoparticles (Cu/Beta-deAl) and showed that these particles become smaller in methanol vapor at 200°C, decreasing from ~5.6 to ~2.4 nanometers in diameter, which is opposite to the general sintering phenomenon. A reverse ripening process was discovered, whereby migratable copper sites activated by methanol were trapped by silanol nests and the copper species in the nests acted as new nucleation sites for the formation of small nanoparticles. This feature reversed the general sintering channel, resulting in robust catalysts for dimethyl oxalate hydrogenation performed with supported copper nanoparticles for use in industry.",

author = "Lujie Liu and Jiaye Lu and Yahui Yang and Wolfgang Ruettinger and Xinhua Gao and Ming Wang and Hao Lou and Zhandong Wang and Yifeng Liu and Xin Tao and Lina Li and Yong Wang and Hangjie Li and Hang Zhou and Chengtao Wang and Qingsong Luo and Huixin Wu and Kaidi Zhang and Jiabi Ma and Xiaoming Cao and Liang Wang and Xiao, {Feng Shou}",

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doi = "10.1126/science.adj1962",

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Liu, L, Lu, J, Yang, Y, Ruettinger, W, Gao, X, Wang, M, Lou, H, Wang, Z, Liu, Y, Tao, X, Li, L, Wang, Y, Li, H, Zhou, H, Wang, C, Luo, Q, Wu, H, Zhang, K, Ma, J, Cao, X, Wang, L & Xiao, FS 2024, 'Dealuminated Beta zeolite reverses Ostwald ripening for durable copper nanoparticle catalysts', Science, vol. 383, no. 6678, pp. 94-101. https://doi.org/10.1126/science.adj1962

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AU - Liu, Lujie

AU - Lu, Jiaye

AU - Yang, Yahui

AU - Ruettinger, Wolfgang

AU - Gao, Xinhua

AU - Wang, Ming

AU - Lou, Hao

AU - Wang, Zhandong

AU - Liu, Yifeng

AU - Tao, Xin

AU - Li, Lina

AU - Wang, Yong

AU - Li, Hangjie

AU - Zhou, Hang

AU - Wang, Chengtao

AU - Luo, Qingsong

AU - Wu, Huixin

AU - Zhang, Kaidi

AU - Ma, Jiabi

AU - Cao, Xiaoming

AU - Wang, Liang

AU - Xiao, Feng Shou

PY - 2024/1/1

Y1 - 2024/1/1

N2 - Copper nanoparticle–based catalysts have been extensively applied in industry, but the nanoparticles tend to sinter into larger ones in the chemical atmospheres, which is detrimental to catalyst performance. In this work, we used dealuminated Beta zeolite to support copper nanoparticles (Cu/Beta-deAl) and showed that these particles become smaller in methanol vapor at 200°C, decreasing from ~5.6 to ~2.4 nanometers in diameter, which is opposite to the general sintering phenomenon. A reverse ripening process was discovered, whereby migratable copper sites activated by methanol were trapped by silanol nests and the copper species in the nests acted as new nucleation sites for the formation of small nanoparticles. This feature reversed the general sintering channel, resulting in robust catalysts for dimethyl oxalate hydrogenation performed with supported copper nanoparticles for use in industry.

AB - Copper nanoparticle–based catalysts have been extensively applied in industry, but the nanoparticles tend to sinter into larger ones in the chemical atmospheres, which is detrimental to catalyst performance. In this work, we used dealuminated Beta zeolite to support copper nanoparticles (Cu/Beta-deAl) and showed that these particles become smaller in methanol vapor at 200°C, decreasing from ~5.6 to ~2.4 nanometers in diameter, which is opposite to the general sintering phenomenon. A reverse ripening process was discovered, whereby migratable copper sites activated by methanol were trapped by silanol nests and the copper species in the nests acted as new nucleation sites for the formation of small nanoparticles. This feature reversed the general sintering channel, resulting in robust catalysts for dimethyl oxalate hydrogenation performed with supported copper nanoparticles for use in industry.

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VL - 383

SP - 94

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JO - Science

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Dealuminated Beta zeolite reverses Ostwald ripening for durable copper nanoparticle catalysts

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