环境条件下茂金属二氯化物与发烟硝酸反应自燃合成无机材料——以光催化二氧化钛为例

Nikolaos Chalmpes, Georgios Asimakopoulos, M. Baikousi, A. Bourlinos, M. Karakassides, D. Gournis
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引用次数: 4

摘要

自燃材料合成是材料科学领域的一种新型制备技术,它可以制备出多种具有实用性能的碳或无机固体。之前我们已经证明了茂金属在无机材料的自燃合成中是通用试剂,如γ-Fe2O3, Cr2O3, Co, Ni和合金CoNi。在这里,我们更进一步,使用茂金属二氯化物作为自燃合成其他无机相的前体,如光催化二氧化钛。茂金属二氯化物与茂金属密切相关,从而扩大了可用于自燃材料合成的有机金属化合物库。在这种情况下,我们表明,二氯二茂钛-发烟硝酸对的自燃点火导致二氧化钛纳米颗粒在环境条件下以锐钛矿-金红石混合相的形式快速自发形成。所得的二氧化钛对Cr(VI)的去除表现出良好的光催化活性(9 h内100%),在500℃煅烧后(3 h内100%),后者得到显著增强。值得注意的是,该性能与市售P25 TiO2在相同条件下的性能相当。本文对茂锆二茂、半茂茂和钼二茂二氯化物进行了补充讨论,旨在说明茂金属二氯化物在无机材料(ZrO2、HfO2、MoO2)的自燃合成中具有更广泛的适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hypergolic Synthesis of Inorganic Materials by the Reaction of Metallocene Dichlorides With Fuming Nitric Acid At Ambient Conditions: The Case of Photocatalytic Titania
Hypergolic materials synthesis is a new preparative technique in materials science that allows a wide range of carbon or inorganic solids with useful properties to be obtained. Previously we have demonstrated that metallocenes are versatile reagents in the hypergolic synthesis of inorganic materials, such as γ-Fe2O3, Cr2O3, Co, Ni and alloy CoNi. Here, we take one step further by using metallocene dichlorides as precursors for the hypergolic synthesis of additional inorganic phases, such as photocatalytic titania. Metallocene dichlorides are closely related to metallocenes, thus expanding the arsenal of organometallic compounds that can be used in hypergolic materials synthesis. In the present case, we show that hypergolic ignition of the titanocene dichloride-fuming nitric acid pair results in the fast and spontaneous formation of titania nanoparticles at ambient conditions in the form of anatase-rutile mixed phases. The obtained titania shows good photocatalytic activity towards Cr(VI) removal (100 % within 9 h), the latter being dramatically enhanced after calcination of the powder at 500 °C (100 % within 3 h). Worth noting, this performance was found to be comparable to that of commercially available P25 TiO2 under identical conditions. The cases of zirconocene, hafnocene and molybdocene dichlorides are complementary discussed in this work, aiming to show the wider applicability of metallocene dichlorides in the hypergolic synthesis of inorganic materials (ZrO2, HfO2, MoO2).
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