中文摘要：

甲酸是重要的化工原料,从生物质制取甲酸可实现甲酸生产的可持续化.目前生物质高效转化为甲酸的方法主要为含钒杂多酸、Na VO3/H2SO4和VOSO4体系催化下的水热氧化法.该方法条件温和,制得的甲酸纯度高,是一种很有潜力的甲酸制取方法.本文介绍了含钒杂多酸、Na VO3/H2SO4和VOSO4催化剂体系中生物质选择性氧化、甲酸生成机理、生物质转化过程中水解和氧化之间的各种反应关系以及催化剂的重复使用方法,分析了生物质选择性氧化制甲酸过程中存在的问题,并尝试提出生物质制甲酸研究进一步的发展方向.

英文摘要：

Formic acid（FA） is an important material in the chemical industry, and the preparation of FA from biomass could provide a sustainable strategy for the large-scale production of FA. Vanadium（V）-containing catalysts have recently been reported to catalyze the conversion of biomass to FA with a high level of selectivity under aqueous conditions using molecular O2 as an oxidant. These catalysts mainly include V-containing heteropoly acid, Na VO3/H2SO4 and VOSO4. In this article, we have provided a detailed review of the performances of these three catalytic systems for the conversion of biomass into FA. This review is mainly focused on four key areas of research, including the mechanisms associated with this transformation, the relationships between various reactions, methods for the separation of FA from the aqueous solution and the recyclability of the catalytic systems. Vanadium-containing catalytic systems can be used to generate FA from numerous bio-based carbohydrates, including sugars, cellulose and hemicellulose, with a high level of selectivity. The active catalytic species in these processes is known to be V5＋, and these processes can be explained in terms of an electron transfer-oxygen transfer mechanism, where the vanadium species（including V-containing heteropoly acid and VO2＋） receives two electrons from the substrate in exchange for one oxygen atom to form FA. Among the various reactions occurring in the catalytic system, the hydrolysis of the biomass and the selective oxidation of the biomass to FA are competitive, and variations in the main reaction parameters can lead to significant changes in the balance between these two reactions. The direct separation of FA from the aqueous reaction mixture by distillation is difficult, and the extraction of FA by organic solvents is by far a relatively feasible method. Among the extraction agents evaluated for this purpose, n-butyl ether and ethyl ether have been reported to be useful for the extraction of FA from catalytic systems using V-conta