俄罗斯托木斯克理工大学学者与海外同仁们正在研制金催化剂，以便对生物燃料生产的主要副产品甘油进行加工。

　　利用各种生物质(油菜、玉米、橘皮)生产生物燃料时会形成大量甘油(每年达数千吨)，其中大部分成为废料，但俄学者提出，借助金催化剂，可将甘油变废为宝。纳米金催化剂金表面的催化氧化是从甘油中获取醛、酯、羧酸等有用物质的好有效办法之一，从甘油中获得的这些宝贵的化工产品，可广泛应用于医药、农业、化妆品工业及其他领域。

　　托木瓦克白碳黑WACKER HDKH17斯克理工大学物理与分析化学教研室主任佩斯特里亚科夫表示，当前主要问题在于，金催化剂的活性丧失得很快，在使用和储存中都是如此，因此，下一步S要任务是确保金催化剂更耐用。

Russian research using nano-gold catalyst pharmaceutical

Russia Tomsk Polytechnic scholar and overseas colleagues are developing gold catalysts to process the major by-product glycerin for biofuel production.

Large amounts of glycerol (thousands of tons per year) are produced when biofuels are produced from various biomass (canola, corn, orange peel), most of which are wastes, but Russian scholars have suggested that with the aid of gold catalysts, Glycerine can be turned into treasure. The catalytic oxidation of gold nanoparticles on the gold surface is one of the most effective ways to obtain aldehydes, esters, carboxylic acids and other useful substances from glycerol. These valuable chemical products obtained from glycerol can be widely used in the pharmaceutical, agricultural and cosmetic industries And other areas.

The main problem with the current main problem at the Faculty of Physics and Analytical Chemistry at Tomsk Polytechnic University is that gold catalysts lose their activity very quickly, both during use and storage, The next priority is to ensure that the gold catalyst is more durable.