硅酸盐学报
硅痠鹽學報
규산염학보
JOURNAL OF THE CHINESE CERAMIC SOCIETY
2007年
10期
1306-1311
,共6页
方芳%吕忆农%徐明%施书哲%刘云飞
方芳%呂憶農%徐明%施書哲%劉雲飛
방방%려억농%서명%시서철%류운비
钛酸锶铅%超声化学%纳米粉%铅含量%形貌
鈦痠鍶鉛%超聲化學%納米粉%鉛含量%形貌
태산송연%초성화학%납미분%연함량%형모
strontium lead titanate%sonochemistry%nanopowders%lead content%morphology
采用超声化学法方便地制得了Sr1-xPbxTiO3(SPT)纳米粉末.高强度的超声作用促使了SPT纳米颗粒的快速形成.通过控制Sr2+和Pb2+的摩尔比,可以得到不同形貌的SPT纳米粉末:当x=0,可以得到球形的纳米粉末;随着Pb2+含量的增加,SPT纳米粉末的形状由球形变成方形.通过X射线衍射仪对SPT纳米粉末进行表征.结果表明:在固定的起始反应物总浓度下,随着Pb2+含量的增加,所得到纳米粉末的微结构也随之变化.超声化学法合成SPT纳米粉的反应分两个过程进行:首先TiCl4水解形成富钛凝胶;然后在超声影响下,溶液中的Sr2+和Pb2+扩散到钛凝胶表面,并以其为核生成SPT纳米颗粒.
採用超聲化學法方便地製得瞭Sr1-xPbxTiO3(SPT)納米粉末.高彊度的超聲作用促使瞭SPT納米顆粒的快速形成.通過控製Sr2+和Pb2+的摩爾比,可以得到不同形貌的SPT納米粉末:噹x=0,可以得到毬形的納米粉末;隨著Pb2+含量的增加,SPT納米粉末的形狀由毬形變成方形.通過X射線衍射儀對SPT納米粉末進行錶徵.結果錶明:在固定的起始反應物總濃度下,隨著Pb2+含量的增加,所得到納米粉末的微結構也隨之變化.超聲化學法閤成SPT納米粉的反應分兩箇過程進行:首先TiCl4水解形成富鈦凝膠;然後在超聲影響下,溶液中的Sr2+和Pb2+擴散到鈦凝膠錶麵,併以其為覈生成SPT納米顆粒.
채용초성화학법방편지제득료Sr1-xPbxTiO3(SPT)납미분말.고강도적초성작용촉사료SPT납미과립적쾌속형성.통과공제Sr2+화Pb2+적마이비,가이득도불동형모적SPT납미분말:당x=0,가이득도구형적납미분말;수착Pb2+함량적증가,SPT납미분말적형상유구형변성방형.통과X사선연사의대SPT납미분말진행표정.결과표명:재고정적기시반응물총농도하,수착Pb2+함량적증가,소득도납미분말적미결구야수지변화.초성화학법합성SPT납미분적반응분량개과정진행:수선TiCl4수해형성부태응효;연후재초성영향하,용액중적Sr2+화Pb2+확산도태응효표면,병이기위핵생성SPT납미과립.
Strontium lead titanate Sr1-xPbxTiO3 (SPT) nanopowders have been conveniently synthesized using the sonochemical method. A high intensity of ultrasound irradiation can induce the rapid formation of nanometer SPT particles. By controlling the molar ratio of Sr2+ and Pb2+, SPT nanopowders of different morphologies can be obtained. When x=0, spherical nanopowders can be obtained. With an increase of the Pb2+ content, the shape of the obtained nanopowders becomes cubic. The results, obtained from X-ray diffraction, show that the microstructure of the SPT nanopowders also changes with the increase of the Pb2+ content at a given total initial concentration. The formation process of the SPT nanopowders under ultrasonic action goes through two steps. First is the formation of the titanium hydroxide gel through the hydrolysis of TiCl4, and then the Sr2+ and Pb2+ are diffused to the titanium hydroxide gel surface. After this, they are combined with the titanium's hydrous nucleus to form the SPT nanoparticles under the effect of ultrasound.