Key Laboratory of Cluster Science Ministry of Education, Beijing Key Laboratory of Photoelectronic/Electrophotonic Conversion Materials, School of Chemistry and Chemical Engineering, Beijing Institute of Technology, Beijing 100081, P.R. China.
Inorg Chem. 2021 Jun 7;60(11):7785-7793. doi: 10.1021/acs.inorgchem.1c00185. Epub 2021 Mar 23.
Catalytic transformation of levulinic acid (LA) to γ-valerolactone (γ-GVL) is an important route for biomass upgradation. Because both Bro̷nsted and Lewis acidic sites are required in the cascade reaction, herein we fabricate a series of HPWO@Zr-based metal-organic framework (HPW@MOF-808) by a facile impregnation method. The synthesized HPW@MOF-808 is active for the conversion of LA to γ-GVL using isopropanol as a hydrogen donor. Interestingly, with the increase in the HPW loading amount, the yield of γ-GVL increases first and then decreases, and 14%-HPW@MOF-808 gave the highest γ-GVL yield (86%). The excellent catalytic performance was ascribed to the synergistic effect between the accessible Lewis acidic Zr sites in MOF-808 and Bro̷nsted acidic HPW sites. Based on the experimental results, a plausible reaction mechanism was proposed: the Zr sites catalyze the transfer hydrogenation of carbonyl groups and the HPW clusters promote the esterification of LA with isopropanol and lactonization to afford γ-GVL. Moreover, HPW@MOF-808 is resistant to leaching and can be reused for five cycles without significant loss of its catalytic activity.
将乙酰丙酸(LA)催化转化为γ-戊内酯(γ-GVL)是生物质升级的重要途径。由于级联反应需要同时具有 Brønsted 和 Lewis 酸性位,因此我们通过简单的浸渍法制备了一系列 HPWO@Zr 基金属-有机骨架(HPW@MOF-808)。所合成的 HPW@MOF-808 可在异丙醇作为氢供体的情况下,将 LA 转化为 γ-GVL。有趣的是,随着 HPW 负载量的增加,γ-GVL 的产率先增加后降低,而 14%-HPW@MOF-808 得到了最高的 γ-GVL 产率(86%)。优异的催化性能归因于 MOF-808 中可及的 Lewis 酸性 Zr 位和 Brønsted 酸性 HPW 位之间的协同效应。根据实验结果,提出了一个合理的反应机理:Zr 位催化羰基的转移氢化,HPW 簇促进 LA 与异丙醇的酯化以及内酯化,从而得到 γ-GVL。此外,HPW@MOF-808 不易浸出,可以重复使用五次,且催化活性没有明显损失。
