Room temperature removal of high-space-velocity formaldehyde boosted by fixing Pt nanoparticles into Beta zeolite framework

Xiaoling Liu; Yitong Liu; Yue Wu; Shan Dong; Guoqin Qi; Cailing Chen; Shibo Xi; Pan Luo; Yihu Dai; Yu Han; Yu Zhou; Yu Guo; Jun Wang

doi:10.1016/j.jhazmat.2023.131848

Room temperature removal of high-space-velocity formaldehyde boosted by fixing Pt nanoparticles into Beta zeolite framework

Xiaoling Liu, Yitong Liu, Yue Wu, Shan Dong, Guoqin Qi, Cailing Chen, Shibo Xi, Pan Luo, Yihu Dai, Yu Han, Yu Zhou, Yu Guo, Jun Wang

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

19 Scopus citations

Abstract

Catalytic oxidation of volatile organic compounds like formaldehyde (HCHO) over the noble metals catalysts at room temperature is among the most promising strategies to control indoor pollution but remains one challenge to maximize the efficiency of noble metal species. Herein, we demonstrated the straightforward encapsulation of highly dispersive Pt nanoparticles (NPs) within BEA zeolite and adjacent with the surface hydroxyl groups to reach the synergistic HCHO oxidation at 25 °C. High efficiency and long-term stability was reached under large space velocity (∼100% conversion at 180,000 mL (g_cat × h)⁻¹ and >95% at 360,000 mL (g_cat × h)⁻¹), affording rapid elimination rate of 129.4 μmol (g_Pt × s)⁻¹ and large turnover frequency of 2.5 × 10⁻² s⁻¹. This is the first synergy example derived from the hydroxyl groups and confined noble metals within zeolites that accelerated the rate-determining step, the formate transformation, in the HCHO elimination.

Original language	English
Article number	131848
Journal	Journal of Hazardous Materials
Volume	458
DOIs	https://doi.org/10.1016/j.jhazmat.2023.131848
State	Published - 15 Sep 2023

Keywords

Formaldehyde oxidation
Heterogeneous catalysis
Noble metal nanoparticles
Synergy effect
Zeolite

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10.1016/j.jhazmat.2023.131848

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title = "Room temperature removal of high-space-velocity formaldehyde boosted by fixing Pt nanoparticles into Beta zeolite framework",

abstract = "Catalytic oxidation of volatile organic compounds like formaldehyde (HCHO) over the noble metals catalysts at room temperature is among the most promising strategies to control indoor pollution but remains one challenge to maximize the efficiency of noble metal species. Herein, we demonstrated the straightforward encapsulation of highly dispersive Pt nanoparticles (NPs) within BEA zeolite and adjacent with the surface hydroxyl groups to reach the synergistic HCHO oxidation at 25 °C. High efficiency and long-term stability was reached under large space velocity (∼100% conversion at 180,000 mL (gcat × h)−1 and >95% at 360,000 mL (gcat × h)−1), affording rapid elimination rate of 129.4 μmol (gPt × s)−1 and large turnover frequency of 2.5 × 10−2 s−1. This is the first synergy example derived from the hydroxyl groups and confined noble metals within zeolites that accelerated the rate-determining step, the formate transformation, in the HCHO elimination.",

keywords = "Formaldehyde oxidation, Heterogeneous catalysis, Noble metal nanoparticles, Synergy effect, Zeolite",

author = "Xiaoling Liu and Yitong Liu and Yue Wu and Shan Dong and Guoqin Qi and Cailing Chen and Shibo Xi and Pan Luo and Yihu Dai and Yu Han and Yu Zhou and Yu Guo and Jun Wang",

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year = "2023",

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day = "15",

doi = "10.1016/j.jhazmat.2023.131848",

language = "英语",

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T1 - Room temperature removal of high-space-velocity formaldehyde boosted by fixing Pt nanoparticles into Beta zeolite framework

AU - Liu, Xiaoling

AU - Liu, Yitong

AU - Wu, Yue

AU - Dong, Shan

AU - Qi, Guoqin

AU - Chen, Cailing

AU - Xi, Shibo

AU - Luo, Pan

AU - Dai, Yihu

AU - Han, Yu

AU - Zhou, Yu

AU - Guo, Yu

AU - Wang, Jun

PY - 2023/9/15

Y1 - 2023/9/15

N2 - Catalytic oxidation of volatile organic compounds like formaldehyde (HCHO) over the noble metals catalysts at room temperature is among the most promising strategies to control indoor pollution but remains one challenge to maximize the efficiency of noble metal species. Herein, we demonstrated the straightforward encapsulation of highly dispersive Pt nanoparticles (NPs) within BEA zeolite and adjacent with the surface hydroxyl groups to reach the synergistic HCHO oxidation at 25 °C. High efficiency and long-term stability was reached under large space velocity (∼100% conversion at 180,000 mL (gcat × h)−1 and >95% at 360,000 mL (gcat × h)−1), affording rapid elimination rate of 129.4 μmol (gPt × s)−1 and large turnover frequency of 2.5 × 10−2 s−1. This is the first synergy example derived from the hydroxyl groups and confined noble metals within zeolites that accelerated the rate-determining step, the formate transformation, in the HCHO elimination.

AB - Catalytic oxidation of volatile organic compounds like formaldehyde (HCHO) over the noble metals catalysts at room temperature is among the most promising strategies to control indoor pollution but remains one challenge to maximize the efficiency of noble metal species. Herein, we demonstrated the straightforward encapsulation of highly dispersive Pt nanoparticles (NPs) within BEA zeolite and adjacent with the surface hydroxyl groups to reach the synergistic HCHO oxidation at 25 °C. High efficiency and long-term stability was reached under large space velocity (∼100% conversion at 180,000 mL (gcat × h)−1 and >95% at 360,000 mL (gcat × h)−1), affording rapid elimination rate of 129.4 μmol (gPt × s)−1 and large turnover frequency of 2.5 × 10−2 s−1. This is the first synergy example derived from the hydroxyl groups and confined noble metals within zeolites that accelerated the rate-determining step, the formate transformation, in the HCHO elimination.

KW - Formaldehyde oxidation

KW - Heterogeneous catalysis

KW - Noble metal nanoparticles

KW - Synergy effect

KW - Zeolite

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U2 - 10.1016/j.jhazmat.2023.131848

DO - 10.1016/j.jhazmat.2023.131848

M3 - 文章

C2 - 37336111

AN - SCOPUS:85162251084

SN - 0304-3894

VL - 458

JO - Journal of Hazardous Materials

JF - Journal of Hazardous Materials

M1 - 131848

ER -

Room temperature removal of high-space-velocity formaldehyde boosted by fixing Pt nanoparticles into Beta zeolite framework

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Keywords

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