Mechanism insight into α-D-galactopyranose conversion to 5-hydroxymethyl furfural by combining Py-GC–MS experiments and theoretical calculations

IF 13.3 1区工程技术 Q1 ENGINEERING, CHEMICAL

Chemical Engineering Journal Pub Date : 2024-09-17 DOI:10.1016/j.cej.2024.155724

Junrui Duan, Jie Ji

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引用次数: 0

Abstract

Pyrolysis of biomass is a promising technique for producing various chemicals. During the fast pyrolysis of biomass, 5-hydroxymethyl furfural (5-HMF) is a significant product derived from holocellulose, which consists of cellulose and hemicellulose. In this study, the formation mechanism of 5-HMF was systematically revealed by combining fast pyrolysis experiments of C-labeled and unlabeled D-galactose and density functional theory calculations that α-D-galactopyranose was selected as the model compound for hemicellulose. Experimental results show the yield and concentration of 5-HMF gradually decrease as the temperature rises (≥400 °C). In addition, the origin of the C atoms in 5-HMF was determined. The aldehyde group and hydroxymethyl are primarily derived from C1 and C6 of D-galactose, respectively. Based on computational results, α-D-galactopyranose prefers to undergo a ring-opening reaction to form acyclic D-galactose with an energy barrier of 166.5 kJ/mol. (2R,3S,E)-2,3,5,6-tetrahydroxyhex-4-enal (C1-i2) and (2R,3S)-2,3,6-trihydroxy-5-oxohexanal (C1-i3) generated by D-galactose are important intermediates for 5-HMF formation. Because C1-i3 can readily form 5-HMF through successive dehydration at 3-OH+2-H site, cyclization, and dehydration at 5-OH+4-H site. In favorable paths, the aldehyde group of 5-HMF all comes from C1 of α-D-galactopyranose, which reasonably explains the experimental results. Overall, this study will be helpful to improve the formation mechanism of 5-HMF and to develop relevant pyrolysis techniques to prepare it.

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通过结合 Py-GC-MS 实验和理论计算深入了解 α-D-Galactopyranose 转化为 5-hydroxymethyl furfural 的机理

生物质热解是生产各种化学品的一项前景广阔的技术。在生物质快速热解过程中，5-羟甲基糠醛（5-HMF）是从全纤维素（由纤维素和半纤维素组成）中衍生出来的一种重要产物。本研究结合 C 标记和未标记 D-半乳糖的快速热解实验和密度泛函理论计算，系统地揭示了 5-HMF 的形成机理，并选择α-D-吡喃半乳糖作为半纤维素的模型化合物。实验结果表明，随着温度的升高（≥400 ℃），5-HMF 的产率和浓度逐渐降低。此外，还确定了 5-HMF 中 C 原子的来源。醛基和羟甲基主要分别来自 D-半乳糖的 C1 和 C6。由 D-半乳糖生成的 (2R,3S,E)-2,3,5,6-四羟基己-4-烯醛（C1-i2）和 (2R,3S)-2,3,6-三羟基-5-氧代己醛（C1-i3）是形成 5-HMF 的重要中间产物。因为 C1-i3 很容易通过 3-OH+2-H 位点的连续脱水、环化和 5-OH+4-H 位点的脱水形成 5-HMF。在有利的路径中，5-HMF 的醛基全部来自 α-D 吡喃半乳糖的 C1，这合理地解释了实验结果。总之，这项研究将有助于完善 5-HMF 的形成机理，并开发制备 5-HMF 的相关热解技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Chemical Engineering Journal 工程技术-工程：化工

CiteScore

21.70

自引率

9.30%

发文量

6781

审稿时长

2.4 months

期刊介绍： The Chemical Engineering Journal is an international research journal that invites contributions of original and novel fundamental research. It aims to provide an international platform for presenting original fundamental research, interpretative reviews, and discussions on new developments in chemical engineering. The journal welcomes papers that describe novel theory and its practical application, as well as those that demonstrate the transfer of techniques from other disciplines. It also welcomes reports on carefully conducted experimental work that is soundly interpreted. The main focus of the journal is on original and rigorous research results that have broad significance. The Catalysis section within the Chemical Engineering Journal focuses specifically on Experimental and Theoretical studies in the fields of heterogeneous catalysis, molecular catalysis, and biocatalysis. These studies have industrial impact on various sectors such as chemicals, energy, materials, foods, healthcare, and environmental protection.

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