通过液体进料火焰喷雾热解（LF-FSP）一步合成核壳结构的（Ce0.7Zr0.3O2）(x)(Al2O3)(1-x) [（Ce0.7Zr0.3O2）@Al2O3]纳米粉末。

One-step synthesis of core-shell (Ce0.7Zr0.3O2)(x)(Al2O3)(1-x) [(Ce0.7Zr0.3O2)@Al2O3] nanopowders via liquid-feed flame spray pyrolysis (LF-FSP).

作者信息

Kim Min, Laine Richard M

机构信息

Department of Materials Science and Engineering, University of Michigan, Ann Arbor, Michigan 48109-2136, USA.

出版信息

J Am Chem Soc. 2009 Jul 8;131(26):9220-9. doi: 10.1021/ja9017545.

DOI:10.1021/ja9017545

PMID:19566096

Abstract

We report here the synthesis of Ce(x)Zr(1-x)O(2) and (Ce(0.7)Zr(0.3)O(2))(x)(Al(2)O(3))(1-x) core-shell nanopowders in a single step by liquid-feed flame spray pyrolysis (LF-FSP) of the metalloorganic precursors, Ce(O(2)CCH(2)CH(3))(3)(OH), alumatrane [N(CH(2)CH(2)O)(3)Al], and Zr(O(2)CCH(2)CH(3))(2)(OH)(2). Solutions of all three precursors in ethanol with ceramic yields of 2.5 wt% were aerosolized with O(2), combusted at temperatures above 1500 degrees C, and rapidly quenched at approximately 1000 degrees C/ms to form Ce(x)Zr(1-x)O(2) and (Ce(0.7)Zr(0.3)O(2))(x)(Al(2)O(3))(1-x) nanopowders of selected compositions, at rates of 50-100 g/h. The resulting, as-processed, materials are unaggregated nanopowders with average particle sizes (APSs) < 20 nm and corresponding specific surface areas of 30-50 m(2)/g. The as-processed powders were characterized in terms of phase, particle size, specific surface area, compositions, and morphology by XRD, BET, DLS, SEM, TEM, XPS, TGA-DTA, and FT-IR. LF-FSP provides access to binary Ce(x)Zr(1-x)O(2) nanopowders and ternary (Ce(0.7)Zr(0.3)O(2))(x)(Al(2)O(3))(1-x) nanopowders in one step. The obtained Ce(0.7)Zr(0.3)O(2) powders are solid solutions with a cubic phase. In contrast, LF-FSP of mixtures of the three precursors at specific compositions [x = 0.5, 0.7 for (Ce(0.7)Zr(0.3)O(2))(x)@(Al(2)O(3))(1-x)] provide core-shell nanopowders in a single step. The most reasonable explanation is that there are differences in the rates of condensation, nucleation and miscibility between the gas phase ions that form the Ce(x)Zr(1-x)O(2) solid solutions and those that condense to delta-Al(2)O(3) during processing. These as-produced materials are without microporosity at surface areas of > or = 30 m(2)/g. Evidence is presented suggesting the formation of (Ce/Zr)(3+) species in the as-processed (Ce(0.7)Zr(0.3)O(2))(x)(Al(2)O(3))(1-x) core-shell materials. An accompanying paper indicates that these materials offer significant and novel catalytic activities for hydrocarbon oxidation and deNO(x) processes without using platinum as a co-catalyst.

摘要

我们在此报告通过对金属有机前驱体Ce(O₂CCH₂CH₃)₃(OH)、铝氧烷[N(CH₂CH₂O)₃Al]和Zr(O₂CCH₂CH₃)₂(OH)₂进行液体进料火焰喷雾热解（LF-FSP）一步合成Ce(x)Zr(1 - x)O₂和(Ce₀.₇Zr₀.₃O₂)(x)(Al₂O₃)(1 - x)核壳纳米粉末。将这三种前驱体在乙醇中的溶液（陶瓷产率为2.5 wt%）与O₂一起雾化，在高于1500℃的温度下燃烧，并在约1000℃/ms的速度下快速淬火，以50 - 100 g/h的速率形成选定组成的Ce(x)Zr(1 - x)O₂和(Ce₀.₇Zr₀.₃O₂)(x)(Al₂O₃)(1 - x)纳米粉末。所得的加工态材料是平均粒径（APS）< 20 nm且相应比表面积为30 - 50 m²/g的未团聚纳米粉末。通过XRD、BET、DLS、SEM、TEM、XPS、TGA - DTA和FT - IR对加工态粉末的相、粒径、比表面积、组成和形态进行了表征。LF-FSP一步法可获得二元Ce(x)Zr(1 - x)O₂纳米粉末和三元(Ce₀.₇Zr₀.₃O₂)(x)(Al₂O₃)(1 - x)纳米粉末。所获得的Ce₀.₇Zr₀.₃O₂粉末是具有立方相的固溶体。相比之下，在特定组成[x = 0.5, 0.7用于(Ce₀.₇Zr₀.₃O₂)(x)@(Al₂O₃)(1 - x)]下对三种前驱体混合物进行LF-FSP可一步提供核壳纳米粉末。最合理的解释是，在加工过程中形成Ce(x)Zr(1 - x)O₂固溶体的气相离子与冷凝形成δ - Al₂O₃的气相离子之间，在凝聚、成核和混溶速率上存在差异。这些制备的材料在比表面积≥30 m²/g时无微孔。有证据表明在加工态的(Ce₀.₇Zr₀.₃O₂)(x)(Al₂O₃)(1 - x)核壳材料中形成了(Ce/Zr)³⁺物种。一篇随附论文表明，这些材料在不使用铂作为助催化剂的情况下对烃类氧化和脱硝过程具有显著且新颖的催化活性。