Potassium-incorporated mesoporous carbons: Strong solid bases with enhanced catalytic activity and stability

Tian Tian Li; Xia Jun Gao; Shi Chao Qi; Li Huang; Song Song Peng; Wei Liu; Xiao Qin Liu; Lin Bing Sun

doi:10.1039/c8cy00100f

Potassium-incorporated mesoporous carbons: Strong solid bases with enhanced catalytic activity and stability

Tian Tian Li, Xia Jun Gao, Shi Chao Qi, Li Huang, Song Song Peng, Wei Liu, Xiao Qin Liu, Lin Bing Sun

化工学院

Nanjing Tech University

科研成果: 期刊稿件 › 文章 › 同行评审

16 引用（Scopus）

摘要

With the growing demand for green chemistry, mesoporous solid strong bases have attracted increasing attention in view of their tremendous potential as eco-friendly catalysts in diverse reactions. In the present study, K-incorporated mesoporous carbon is successfully prepared through high-temperature chemical activation combined with the hard-templating method. The combined method is proved to be very effective at promoting the formation of stable K species that strongly interact with the carbon support. The obtained solid bases thus have both high activity and enhanced water-resistant stability, which is reflected in their catalysis of the transesterification of ethylene carbonate with methanol to dimethyl carbonate. A much higher turnover frequency (TOF) value (430.4 h^-1) and better reusability are thus observed, compared with a series of typical and popular solid bases, such as MgO (TOF, 1.0 h^-1) and CaO/SBA-15 (TOF, 6.4 h^-1).

源语言	英语
页（从-至）	2794-2801
页数	8
期刊	Catalysis Science and Technology
卷	8
期	11
DOI	https://doi.org/10.1039/c8cy00100f
出版状态	已出版 - 2018

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title = "Potassium-incorporated mesoporous carbons: Strong solid bases with enhanced catalytic activity and stability",

abstract = "With the growing demand for green chemistry, mesoporous solid strong bases have attracted increasing attention in view of their tremendous potential as eco-friendly catalysts in diverse reactions. In the present study, K-incorporated mesoporous carbon is successfully prepared through high-temperature chemical activation combined with the hard-templating method. The combined method is proved to be very effective at promoting the formation of stable K species that strongly interact with the carbon support. The obtained solid bases thus have both high activity and enhanced water-resistant stability, which is reflected in their catalysis of the transesterification of ethylene carbonate with methanol to dimethyl carbonate. A much higher turnover frequency (TOF) value (430.4 h-1) and better reusability are thus observed, compared with a series of typical and popular solid bases, such as MgO (TOF, 1.0 h-1) and CaO/SBA-15 (TOF, 6.4 h-1).",

author = "Li, {Tian Tian} and Gao, {Xia Jun} and Qi, {Shi Chao} and Li Huang and Peng, {Song Song} and Wei Liu and Liu, {Xiao Qin} and Sun, {Lin Bing}",

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doi = "10.1039/c8cy00100f",

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T1 - Potassium-incorporated mesoporous carbons

T2 - Strong solid bases with enhanced catalytic activity and stability

AU - Li, Tian Tian

AU - Gao, Xia Jun

AU - Qi, Shi Chao

AU - Huang, Li

AU - Peng, Song Song

AU - Liu, Wei

AU - Liu, Xiao Qin

AU - Sun, Lin Bing

PY - 2018

Y1 - 2018

N2 - With the growing demand for green chemistry, mesoporous solid strong bases have attracted increasing attention in view of their tremendous potential as eco-friendly catalysts in diverse reactions. In the present study, K-incorporated mesoporous carbon is successfully prepared through high-temperature chemical activation combined with the hard-templating method. The combined method is proved to be very effective at promoting the formation of stable K species that strongly interact with the carbon support. The obtained solid bases thus have both high activity and enhanced water-resistant stability, which is reflected in their catalysis of the transesterification of ethylene carbonate with methanol to dimethyl carbonate. A much higher turnover frequency (TOF) value (430.4 h-1) and better reusability are thus observed, compared with a series of typical and popular solid bases, such as MgO (TOF, 1.0 h-1) and CaO/SBA-15 (TOF, 6.4 h-1).

AB - With the growing demand for green chemistry, mesoporous solid strong bases have attracted increasing attention in view of their tremendous potential as eco-friendly catalysts in diverse reactions. In the present study, K-incorporated mesoporous carbon is successfully prepared through high-temperature chemical activation combined with the hard-templating method. The combined method is proved to be very effective at promoting the formation of stable K species that strongly interact with the carbon support. The obtained solid bases thus have both high activity and enhanced water-resistant stability, which is reflected in their catalysis of the transesterification of ethylene carbonate with methanol to dimethyl carbonate. A much higher turnover frequency (TOF) value (430.4 h-1) and better reusability are thus observed, compared with a series of typical and popular solid bases, such as MgO (TOF, 1.0 h-1) and CaO/SBA-15 (TOF, 6.4 h-1).

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EP - 2801

JO - Catalysis Science and Technology

JF - Catalysis Science and Technology

IS - 11

ER -

Potassium-incorporated mesoporous carbons: Strong solid bases with enhanced catalytic activity and stability

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