UV-Vis-infrared light-driven thermocatalytic abatement of benzene on Fe doped OMS-2 nanorods enhanced by a novel photoactivation

Chen Jian; Li Yuanzhi; Fang Shiming; Yang Yi; Zhao Xiujian

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UV-Vis-infrared light-driven thermocatalytic abatement of benzene on Fe doped OMS-2 nanorods enhanced by a novel photoactivation

机译：通过新颖的Photactivation增强Fe掺杂OMS-2纳米OD的UV-Vis-红外灯驱动热催化剥离

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The catalysts of Fe doped cryptomelanetype octahedral molecular sieve (OMS-2, KMn8O16) with different Fe/Mn molar ratio of 0.079, 0.097, and 0.122 were prepared by a hydrothermal redox method. The Fe doping considerably enhances the catalytic activity of OMS-2 for the catalytic abatement of benzene as one of typical VOCs. The Fe doped OMS-2 catalyst exhibits much higher catalytic activity than pure OMS-2 and Pt/Al2O3 (a commercial precious metal catalyst). The considerable promotion in the catalytic activity of OMS-2 is ascribed to the significant enhancement in the lattice oxygen activity of OMS-2 induced by the Fe doping. Remarkably, under the full solar spectrum (UV-Vis-IR) illumination from a Xe lamp, the Fe doped OMS-2 catalyst exhibits high catalytic activity and excellent durability for benzene abatement. Its very high initial rate of CO2 production (r(CO2), 602.2 mu mol min(-1) g(-1)) is 4 and 179 times higher than that of OMS-2 and TiO2(P25) (a benchmark photocatalyst), respectively. Even under the lambda > 690 nm visible-infrared (Vis-IR) illumination, the Fe doped OMS-2 catalyst still demonstrates high catalytic activity with the r(CO2) of 44.3 mu mol min(-1) g(-1). The high catalytic activity of the Fe doped OMS-2 catalyst under UV-Vis-IR illumination derives from the efficient solar-lightdriven (SLD) thermocatalysis. The SLD thermocatalysis is ascribed to the high thermocatalytic activity of the Fe doped OMS-2 catalyst and its efficient photothermal conversion because of its strong UV-Vis-IR absorption. It is found that the SLD thermocatalytic activity of the Fe doped OMS-2 catalyst is further enhanced by a novel photoactivation effect, which is completely unlike the well-known photocatalysis on photocatalytic semiconductors (e.g. TiO2).

机译：通过水热氧化还原方法制备具有不同Fe / Mn摩尔比为0.079,0.097和0.122的Fe掺杂的Cryptomelylype八面体分子筛（OMS-2，KMn8O16）的催化剂。该Fe掺杂大大提高了OMS-2的催化活性，用于苯的催化剂作为典型的VOCS之一。 Fe掺杂的OMS-2催化剂表现出比纯OMS-2和Pt / Al 2 O 3（商业贵金属催化剂）更高的催化活性。 OMS-2催化活性的相当大推广归因于Fe掺杂诱导的OMS-2的晶格氧活性的显着增强。值得注意的是，在来自XE灯的全太阳光谱（UV-VIS-IR）照射下，Fe掺杂的OMS-2催化剂表现出高催化活性和优异的苯减去耐久性。其非常高的CO 2生产率（R（CO2），602.2μmmin（-1）g（-1））是4至179倍，高于OMS-2和TiO2（P25）（基准光催化剂），分别。即使在λ> 690nm可见红外（Vis-IR）照明中，Fe掺杂OMS-2催化剂仍然证明了具有44.3μmmin（-1）g（-1）的R（CO 2）的高催化活性。在UV-Vis-IR照明下Fe掺杂OMS-2催化剂的高催化活性来自高效的太阳能闪光（SLD）热涂层。 SLD热催化归因于Fe掺杂OMS-2催化剂的高热催化活性及其有效的光热转化，因为其强UV-Vis-IR吸收。发现Fe掺杂OMS-2催化剂的SLD热催化活性进一步增强了一种新颖的光活化效应，这与光催化半导体（例如TiO 2）的众所周知的光催化完全不同。

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来源
《Chemical engineering journal》 |2018年第2018期|共11页
作者
Chen Jian; Li Yuanzhi; Fang Shiming; Yang Yi; Zhao Xiujian;
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作者单位

Wuhan Univ Technol State Key Lab Silicate Mat Architectures 122 Luoshi Rd Wuhan 430070 Hubei Peoples R China;

Wuhan Univ Technol State Key Lab Silicate Mat Architectures 122 Luoshi Rd Wuhan 430070 Hubei Peoples R China;

Wuhan Univ Technol State Key Lab Silicate Mat Architectures 122 Luoshi Rd Wuhan 430070 Hubei Peoples R China;

Wuhan Univ Technol State Key Lab Silicate Mat Architectures 122 Luoshi Rd Wuhan 430070 Hubei Peoples R China;

Wuhan Univ Technol State Key Lab Silicate Mat Architectures 122 Luoshi Rd Wuhan 430070 Hubei Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
Photocatalytic; VOCs abatement; Fe doped OMS-2 nanorods; Solar-light-driven thermocatalysis; Photoactivation;

机译：光催化;VOCS减少;Fe掺杂OMS-2纳米棒;太阳能光驱动热分析;光活化;

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1. UV-Vis-infrared light-driven thermocatalytic abatement of benzene on Fe doped OMS-2 nanorods enhanced by a novel photoactivation [J] . Chen Jian, Li Yuanzhi, Fang Shiming, Chemical engineering journal . 2018,第期

机译：通过新颖的Photactivation增强Fe掺杂OMS-2纳米OD的UV-Vis-红外灯驱动热催化剥离
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机译：Co3O4 / TiO2纳米复合材料导致由于光粘活化和光催化致血液致催化协同作用而改善紫外线红外驱动的热催化活性

UV-Vis-infrared light-driven thermocatalytic abatement of benzene on Fe doped OMS-2 nanorods enhanced by a novel photoactivation

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