Preparation of Potential Protonic Conductor Yttria Doped Hafnia by Using the Modified Solid State Reaction Method

机译：改进的固态反应方法制备质子导体氧化钇掺杂的氧化f

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A pure and well crystalized yttrium doped hafnium oxide Hf_(0.69)Y_(0.31)O_(2-δ)(YSH) is obtained by using a modified solid state reaction method, where a water-based milling medium and freeze drying are implemented to reduce the agglomeration. The mean sizes of the YSH powder, which is obtained through a traditional alcohol-based milling method, is more than 1 um. However, the powder size can be reduced to 100 nm by using the water-based milling method. In addition, the calcination temperature can be lowered 200 ℃ to get a pure phase by using the water-based milling method, compared to the alcohol-based milling method. The relative density of YSH ceramic materials can reach to 97.5% by conventional sintering at 1650 ℃ after during 10 h.

机译：通过使用改进的固态反应方法，获得了纯净且结晶良好的掺钇钇氧化物Hf_（0.69）Y_（0.31）O_（2-δ）（YSH），在其中实施了水基研磨介质和冷冻干燥，减少结块。通过传统的基于醇的研磨方法获得的YSH粉末的平均粒径大于1 um。但是，通过使用水基研磨法，可以将粉末尺寸减小到100 nm。另外，与醇基研磨法相比，水基研磨法可将煅烧温度降低200℃，以获得纯相。经过10 h的1650℃常规烧结，YSH陶瓷材料的相对密度可达97.5％。

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来源
《Electrochemical Conference on Energy amp; the Environment》|2014年|315-320|共6页
会议地点 Shanghai(CN)
作者
Junfu Bu; Paer G. Joensson; Zhe Zhao;
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Department of Materials Science and Engineering, KTH Royal Institute of Technology, SE-10044 Stockholm, Sweden;

Department of Materials Science and Engineering, KTH Royal Institute of Technology, SE-10044 Stockholm, Sweden;

Department of Materials Science and Engineering, KTH Royal Institute of Technology, SE-10044 Stockholm, Sweden,Department of Materials Science and Engineering, Shanghai Institute of Technology, 201418, Shanghai, China;

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1. Preparation of 30 mol.% Y-doped hafnia (Hf0.7Y0.3O2-delta) using a modified solid-state reaction method [J] . Bu Junfu, Jonsson Par G., Zhao Zhe CERAMICS INTERNATIONAL . 2015,第2aPta1期

机译：使用改良的固态反应方法制备30摩尔％的Y掺杂氧化f（Hf0.7Y0.3O2-delta）
2. Preparation and characterization of Ce- and La-doped Ba_2In_2O_5 as candidates for intermediate temperature (100-500℃) solid proton conductors [J] . Jasna Jankovic, David P. Wilkinson, Rob Hui Journal of power sources . 2012,第Mara1期

机译：Ce和La掺杂Ba_2In_2O_5作为中温（100-500℃）固体质子导体候选物的制备与表征
3. Preparation of Yttria-Stabilized Zirconia by the Reverse Microemulsion Method and the Effect of Sc and Ce Doping on Microstructure and Ionic Conductivity for Solid Oxide Fuel Cell Applications [J] . Faruk Oeksuezoemer, Sibel Vatansever, Serkan Naci Ko?, International journal of applied ceramic technology . 2011,第1期

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4. Preparation of Potential Protonic Conductor Yttria Doped Hafnia by Using the Modified Solid State Reaction Method [C] . Junfu Bu, Paer G. Joensson, Zhe Zhao Electrochemical Conference on Energy the Environment . 2014

机译：用改性固态反应法制备潜在质子导体钇掺杂Hafnia
5. Protonic Conductors for Intermediate Temperature Fuel Cell Electrolytes: Superprotonic CsH2PO4 Stabilization and in-Doped SnP2O7 Structure Study [D] . Martinez Salinas, Heber Jair. 2017

机译：中间温度燃料电池电解质的质词导体：超级化CSH2PO4稳定和掺杂的SNP2O7结构研究
6. Dielectric Ferroelectric and Magnetic Properties of Sm-Doped BiFeO3 Ceramics Prepared by a Modified Solid-State-Reaction Method [O] . Fuzeng Zhang, Xiangjun Zeng, Daoguang Bi, 2018

机译：改性固态反应法制备掺S的BiFeO3陶瓷的介电铁电和磁性
7. Preparation of Potential Protonic Conductor Yttria Doped Hafnia by Using the Modified Solid State Reaction Method [O] . Bu, Junfu, Jönsson, Pär, Zhao, Zhe 2014

机译：改进的固态反应方法制备质子导体氧化钇掺杂的氧化f

Preparation of Potential Protonic Conductor Yttria Doped Hafnia by Using the Modified Solid State Reaction Method

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