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首页> 外文OA文献 >Enhancement of Photocatalytic Oxidation of Glucose to Value-Added Chemicals on TiO2 Photocatalysts by A Zeolite (Type Y) Support and Metal Loading
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Enhancement of Photocatalytic Oxidation of Glucose to Value-Added Chemicals on TiO2 Photocatalysts by A Zeolite (Type Y) Support and Metal Loading

机译:通过沸石(Y型)支撑和金属负载,增强葡萄糖对TiO2光催化剂的增值化学品的光催化氧化

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TiO2-based photocatalysts synthesized by the microwave-assisted sol-gel method was tested in the photocatalytic glucose conversion. Modifications of TiO2 with type-Y zeolite (ZeY) and metals (Ag, Cu, and Ag-Cu) were developed for increasing the dispersion of TiO2 nanoparticles and increasing the photocatalytic activity. Effects of the TiO2 dosage to zeolite ratio (i.e., TiO2/ZeY of 10, 20, 40, and 50 mol %) and the silica to alumina ratio in ZeY (i.e., SiO2:Al2O3 of 10, 100, and 500) were firstly studied. It was found that the specific surface area of TiO2/ZeY was 400–590 m2g−1, which was higher than that of pristine TiO2 (34.38 m2g−1). The good properties of 20%TiO2/ZeY photocatalyst, including smaller particles (13.27 nm) and high surface area, could achieve the highest photocatalytic glucose conversion (75%). Yields of gluconic acid, arabinose, xylitol, and formic acid obtained from 20%TiO2/ZeY were 9%, 26%, 4%, and 35%, respectively. For the effect of the silica to alumina ratio, the highest glucose conversion was obtained from SiO2:Al2O3 ratio of 100. Interestingly, it was found that the SiO2:Al2O3 ratio affected the selectivity of carboxylic products (gluconic acid and formic acid). At a low ratio of silica to alumina (SiO2:Al2O3 = 10), higher selectivity of the carboxylic products (gluconic acid = 29% and formic acid = 32%) was obtained (compared with other higher ratios). TiO2/ZeY was further loaded by metals using the microwave-assisted incipient wetness impregnation technique. The highest glucose conversion of 96.9 % was obtained from 1 wt. % Ag-TiO2 (40%)/ZeY. Furthermore, the bimetallic Ag-Cu-loaded TiO2/ZeY presented the highest xylitol yield of 12.93%.
机译:通过微波辅助溶胶 - 凝胶法合成的基于TiO2的光催化剂在光催化葡萄糖转化中进行了测试。开发用于增加TiO2纳米颗粒的分散和增加光催化活性的TiO 2和金属(ZEY)和金属(Ag,Cu和Ag-Cu)的修饰。 TiO2剂量与沸石比的影响(即10,20,40和50mol%)和Zey中的二氧化硅与氧化铝比(即SiO 2:Al 2 O 3为10,100和500)研究过。发现TiO2 / ZEY的比表面积为400-590m 2g-1,其高于原始TiO2(34.38m 2g-1)。 20%TiO2 / ZEY光催化剂的良好性质,包括较小的颗粒(13.27nm)和高表面积,可以实现最高的光催化葡萄糖转化(75%)。从20%TiO 2 / ZEY获得的葡萄糖,阿拉伯糖,木糖醇和甲酸的产量分别为9%,26%,4%和35%。对于二氧化硅至氧化铝比的影响,从SiO 2:Al 2 O 3比的最高葡萄糖转化率为100.有趣的是,SiO 2:Al 2 O 3的比例影响了羧酸产物(葡萄糖酸和甲酸)的选择性。在二氧化硅与氧化铝的低比例(SiO 2:Al 2 O 3 = 10),获得羧酸产物的较高选择性(葡萄糖酸= 29%和甲酸= 32%)(与其他更高的比率相比)。使用微波辅助初期湿润浸渍技术通过金属进一步装载TiO2 / ZEY。从1重量%获得96.9%的最高葡萄糖转化率。 %Ag-TiO2(40%)/ ZEY。此外,双金属酰基-Cu-Cu-Cu-Cu-TiO2 / Zey呈现出最高的木糖醇产率为12.93%。

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