湖北大学学报(自然科学版)
湖北大學學報(自然科學版)
호북대학학보(자연과학판)
2009年
4期
375-378
,共4页
邹亚囡%胡永明%胡正龙%周迪%钱哲理%王钊%顾豪爽
鄒亞囡%鬍永明%鬍正龍%週迪%錢哲理%王釗%顧豪爽
추아닙%호영명%호정룡%주적%전철리%왕쇠%고호상
Bi_(3.15)Nd_(0.85)Ti_3O_(12)%纳米管阵列%溶胶-凝胶%阳极氧化铝模板
Bi_(3.15)Nd_(0.85)Ti_3O_(12)%納米管陣列%溶膠-凝膠%暘極氧化鋁模闆
Bi_(3.15)Nd_(0.85)Ti_3O_(12)%납미관진렬%용효-응효%양겁양화려모판
Bi_(3.15)Nd_(0.85)Ti_3O_(12)%nanotube array%sol-gel%AAO template
采用溶胶-凝胶法,在孔径为100 nm的阳极氧化铝模板中制备了Bi_(3.15)Nd_(0.85)Ti_3O_(12)(BNdT)纳米管阵列.通过XRD、SEM、TEM、HRTEM、SAED和Raman光谱测试手段对纳米管阵列的物相、微结构和声子振动特性进行了表征.研究表明,所合成BNdT纳米管为钙钛矿相多晶结构,纳米管外径约为100 nm,管壁厚约10 nm,长度达几个微米.Raman光谱分析表明,Nd离子部分取代了类钙钛矿层中A位的Bi离子.
採用溶膠-凝膠法,在孔徑為100 nm的暘極氧化鋁模闆中製備瞭Bi_(3.15)Nd_(0.85)Ti_3O_(12)(BNdT)納米管陣列.通過XRD、SEM、TEM、HRTEM、SAED和Raman光譜測試手段對納米管陣列的物相、微結構和聲子振動特性進行瞭錶徵.研究錶明,所閤成BNdT納米管為鈣鈦礦相多晶結構,納米管外徑約為100 nm,管壁厚約10 nm,長度達幾箇微米.Raman光譜分析錶明,Nd離子部分取代瞭類鈣鈦礦層中A位的Bi離子.
채용용효-응효법,재공경위100 nm적양겁양화려모판중제비료Bi_(3.15)Nd_(0.85)Ti_3O_(12)(BNdT)납미관진렬.통과XRD、SEM、TEM、HRTEM、SAED화Raman광보측시수단대납미관진렬적물상、미결구화성자진동특성진행료표정.연구표명,소합성BNdT납미관위개태광상다정결구,납미관외경약위100 nm,관벽후약10 nm,장도체궤개미미.Raman광보분석표명,Nd리자부분취대료류개태광층중A위적Bi리자.
Bi_(3.15)Nd_(0.85)Ti_3O_(12) (BNdT) nanotube arrays were fabricated by sol-gel method utilizing porous anodic aluminum oxide (AAO) templates with 100 nm pore diameters. The phase,microstructure and phonon vibrational properties of the BNdT nanotube arrays were characterized by XRD, SEM, TEM, HRTEM, SAED and Raman spectrum respectively. The results showed that the BNdT nanotubes were polycrystalline with perovskite structure. The diameter, wall thickness and length of BNdT nanotubes were about 100 nm, 10 nm and several microns, respectively. The Raman spectra indicated that Nd was incorporated into the A-site in the perovskite layer of BNdT.