The Interplay of Brønsted-Lowry and Lewis Acid Sites in Bifunctional Catalyst for the Biomass Conversion to Levulinic Acid

IF 0.5 Q4 ENGINEERING, BIOMEDICAL
Nadiah Syafiqah Mohd Azlan, C. L. Yap, Y. W. Tiong, S. Gan, M. B. A. Rahman
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引用次数: 0

Abstract

The integration of phosphotungstic acid and niobium oxide forms a bifunctional catalyst that demonstrates an interplay between Brønsted-Lowry and Lewis acid which is able to provide a synergistic effect for the conversion of biomass to LA. This bifunctional acid catalyst shows a higher yield of levulinic acid (LA) (16.4%) as compared to that of sole phosphotungstic acid (10.5%) or niobium oxide (13.2%), presumably caused by a higher selectivity at the tandem steps of the conversion reaction. The bifunctional catalyst was then doped to a lignin-derived carbon cryogel to mitigate the deactivation and leaching of the catalysts. The durability and thermal stability of the carbon cryogel allow the catalyst to recycle up to 3 times while retaining similar performance.
Brønsted Lowry和Lewis酸位点在生物质转化为乙酰丙酸的双功能催化剂中的相互作用
磷钨酸和氧化铌的整合形成了双功能催化剂,证明了Brønsted-Lowry和Lewis酸之间的相互作用,能够为生物质转化为LA提供协同效应。这种双功能酸催化剂的乙酰丙酸(LA)的产率(16.4%)高于单磷钨酸(10.5%)或氧化铌(13.2%),这可能是由于在转化反应的串联步骤中有更高的选择性。然后将双功能催化剂掺杂到木质素衍生的碳低温凝胶中,以减轻催化剂的失活和浸出。碳低温凝胶的耐久性和热稳定性使催化剂可循环使用多达3次,同时保持类似的性能。
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来源期刊
CiteScore
1.40
自引率
14.30%
发文量
73
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