Photocatalytic Abatement of Aqueous Ammonia on Ru/TiO2: Effects of the Route of Ru Nanoparticles Deposition on TiO2

Q Chemistry Journal of Advanced Oxidation Technologies Pub Date : 2016-01-01 DOI:10.1515/jaots-2016-0208

M. Dozzi, E. Selli

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Abstract

Abstract The effects of TiO2 surface modification by Ru nanoparticles (NPs) deposition have been investigated in the photocatalytic decomposition of aqueous ammonia. Two main Ru NPs deposition routes were chosen, i.e. (i) the deposition of surfactant-stabilized preformed metal NPs and (ii) a modified version of the well-known deposition-precipitation technique, employing urea as precipitating agent. Other Ru/TiO2 photocatalysts were prepared (iii) by simply grafting Ru(III) metal ions on TiO2, which were tested either as prepared or (iv) after their thermal reduction under H2 atmosphere, in order to obtain Ru NPs in full metallic state. The role played also by the relative nominal metal amount on the so obtained photocatalyst powders was investigated in terms of both ammonia conversion and selectivity towards mildly oxidized N2 or highly oxidized nitrite and nitrate ions. The Ru NPs deposition technique was found to affect the reaction paths especially in terms of products selectivity, with fully reduced Ru NPs on TiO2 being able to promote the environmentally friendly, highly desirable photocatalytic conversion of ammonia into innocuous N2.

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Ru/TiO2在水氨上的光催化降解:Ru纳米颗粒沉积路径对TiO2的影响

摘要研究了Ru纳米颗粒(NPs)沉积对TiO2表面的改性对氨水溶液光催化分解的影响。选择了两种主要的Ru NPs沉积途径，即(i)表面活性剂稳定的预成型金属NPs沉积和(ii)众所周知的沉积-沉淀技术的改进版本，使用尿素作为沉淀剂。其他Ru/TiO2光催化剂是(iii)通过在TiO2上简单接枝Ru(iii)金属离子制备的，制备后的TiO2或在H2气氛下热还原后的TiO2进行测试，以获得全金属态的Ru NPs。考察了相对标称金属量对所制光催化剂粉末的氨转化率和对轻度氧化N2或高度氧化亚硝酸盐和硝酸盐离子的选择性的影响。研究发现，Ru NPs沉积技术影响了反应路径，特别是在产物选择性方面，TiO2上完全还原的Ru NPs能够促进环境友好、非常理想的光催化将氨转化为无害的N2。

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来源期刊

Journal of Advanced Oxidation Technologies 化学-物理化学

CiteScore

0.88

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： The Journal of advanced oxidation technologies (AOTs) has been providing an international forum that accepts papers describing basic research and practical applications of these technologies. The Journal has been publishing articles in the form of critical reviews and research papers focused on the science and engineering of AOTs for water, air and soil treatment. Due to the enormous progress in the applications of various chemical and bio-oxidation and reduction processes, the scope of the Journal is now expanded to include submission in these areas so that high quality submission from industry would also be considered for publication. Specifically, the Journal is soliciting submission in the following areas (alphabetical order): -Advanced Oxidation Nanotechnologies -Bio-Oxidation and Reduction Processes -Catalytic Oxidation -Chemical Oxidation and Reduction Processes -Electrochemical Oxidation -Electrohydraulic Discharge, Cavitation & Sonolysis -Electron Beam & Gamma Irradiation -New Photocatalytic Materials and processes -Non-Thermal Plasma -Ozone-based AOTs -Photochemical Degradation Processes -Sub- and Supercritical Water Oxidation -TiO2 Photocatalytic Redox Processes -UV- and Solar Light-based AOTs -Water-Energy (and Food) Nexus of AOTs