压电与声光
壓電與聲光
압전여성광
PIEZOELECTRICS & ACOUSTOOPTICS
2010年
3期
426-428
,共3页
夏傲%苗鸿雁%谈国强%高会磊
夏傲%苗鴻雁%談國彊%高會磊
하오%묘홍안%담국강%고회뢰
微波水热%镧掺杂钛酸铋(Bi4Ti3O12)%填充比
微波水熱%鑭摻雜鈦痠鉍(Bi4Ti3O12)%填充比
미파수열%란참잡태산필(Bi4Ti3O12)%전충비
microwave-hydrothermal method%lanthanum-doped bismuth titanate%filling ratio
以Bi(NO3)3·5H2O、TiCl4和La(NO3)3·6H2O为原料,KOH为矿化剂,采用微波水热法合成了镧掺杂钛酸铋(Bi4Ti3O12)粉体.借助XRD、SEM和EDS对粉体的组成、形貌作了分析.当确定微波水热釜的填充比为30%或40%,将前驱物在200℃反应110 min,可得到单一组成的镧掺杂Bi4Ti3O12粉体;当填充比减小为20%,而其他条件不变,只得到Bi4Ti3O12粉体.SEM结果表明,镧掺杂Bi4Ti3O12的形貌为纳米晶须状,而Bi4 Ti3O12为板片状结构.EDS分析结果表明,镧掺杂Bi4Ti3O12的化学组成为B13.5La0.5 Ti3O12.
以Bi(NO3)3·5H2O、TiCl4和La(NO3)3·6H2O為原料,KOH為礦化劑,採用微波水熱法閤成瞭鑭摻雜鈦痠鉍(Bi4Ti3O12)粉體.藉助XRD、SEM和EDS對粉體的組成、形貌作瞭分析.噹確定微波水熱釜的填充比為30%或40%,將前驅物在200℃反應110 min,可得到單一組成的鑭摻雜Bi4Ti3O12粉體;噹填充比減小為20%,而其他條件不變,隻得到Bi4Ti3O12粉體.SEM結果錶明,鑭摻雜Bi4Ti3O12的形貌為納米晶鬚狀,而Bi4 Ti3O12為闆片狀結構.EDS分析結果錶明,鑭摻雜Bi4Ti3O12的化學組成為B13.5La0.5 Ti3O12.
이Bi(NO3)3·5H2O、TiCl4화La(NO3)3·6H2O위원료,KOH위광화제,채용미파수열법합성료란참잡태산필(Bi4Ti3O12)분체.차조XRD、SEM화EDS대분체적조성、형모작료분석.당학정미파수열부적전충비위30%혹40%,장전구물재200℃반응110 min,가득도단일조성적란참잡Bi4Ti3O12분체;당전충비감소위20%,이기타조건불변,지득도Bi4Ti3O12분체.SEM결과표명,란참잡Bi4Ti3O12적형모위납미정수상,이Bi4 Ti3O12위판편상결구.EDS분석결과표명,란참잡Bi4Ti3O12적화학조성위B13.5La0.5 Ti3O12.
The microwave-hydrothermal method was utilized to fabricate La-doped Bi4 Ti3O12 powders using Bi microstructure of the synthesized powders were characterized by XRD,SEM and EDS analysis.Single-phase BLT powders could be obtained by microwave-hydrothermal method at 200℃ for 110 min with the filling ratio of 30% or 40%,while only Bi4 Ti3O12 was formed when the filling ratio was 20% and the other conditions were invariable.The SEM showed BLT was nano-whiskers instead of plate shape of Bi4 Ti3O12.The composition of BLT synthesized in the experiment was consistent with the stoichiometric ratio of Bi3.5 La0.5 Ti3O12 on the whole according to EDS results.
