硅酸盐通报
硅痠鹽通報
규산염통보
BULLETIN OF THE CHINESE CERAMIC SOCIETY
2010年
1期
180-183
,共4页
孙晶%李昌立%于文生%耿爱芳%陆庆%刘景和
孫晶%李昌立%于文生%耿愛芳%陸慶%劉景和
손정%리창립%우문생%경애방%륙경%류경화
Nd:Y_2O_3%激光陶瓷%溶胶-凝胶燃烧法
Nd:Y_2O_3%激光陶瓷%溶膠-凝膠燃燒法
Nd:Y_2O_3%격광도자%용효-응효연소법
Nd:Y_2O_3%laser ceramic%Sol-gel combustion method
以Y_2O_3 和Nd_2O_3为原料,采用溶胶-凝胶燃烧法制备出Nd:Y_2O_3激光陶瓷纳米粉体.XRD测试结果表明粉体的最佳煅烧温度为1000 ℃,并且晶化完全.原子力显微镜观察结果表明粉体的粒度约为200 nm,分布均匀.差热-热重分析表明,柠檬酸在447 ℃分解放热, 而晶型转变温度为590 ℃,荧光光谱测试表明粉体最强的荧光发射峰位于9421.646 cm~(-1)(即波长1061.4 nm处) ,是 Nd~(3+4)F_(3/2)-~4I_(11/2)谱相导致的荧光发射.
以Y_2O_3 和Nd_2O_3為原料,採用溶膠-凝膠燃燒法製備齣Nd:Y_2O_3激光陶瓷納米粉體.XRD測試結果錶明粉體的最佳煅燒溫度為1000 ℃,併且晶化完全.原子力顯微鏡觀察結果錶明粉體的粒度約為200 nm,分佈均勻.差熱-熱重分析錶明,檸檬痠在447 ℃分解放熱, 而晶型轉變溫度為590 ℃,熒光光譜測試錶明粉體最彊的熒光髮射峰位于9421.646 cm~(-1)(即波長1061.4 nm處) ,是 Nd~(3+4)F_(3/2)-~4I_(11/2)譜相導緻的熒光髮射.
이Y_2O_3 화Nd_2O_3위원료,채용용효-응효연소법제비출Nd:Y_2O_3격광도자납미분체.XRD측시결과표명분체적최가단소온도위1000 ℃,병차정화완전.원자력현미경관찰결과표명분체적립도약위200 nm,분포균균.차열-열중분석표명,저몽산재447 ℃분해방열, 이정형전변온도위590 ℃,형광광보측시표명분체최강적형광발사봉위우9421.646 cm~(-1)(즉파장1061.4 nm처) ,시 Nd~(3+4)F_(3/2)-~4I_(11/2)보상도치적형광발사.
The Nd:Y_2O_3 laser ceramic precusor was prepared by sol-gel combustion method, and Y_2O_3 and Nd_2O_3 were used as raw materials.XRD analysis showed that the optimum calcined temperature of precursor was 1000 ℃. At the same time crystallization was completed.The analysis of DTA-TG indicated that the citric acid was decomposed at 447 ℃,and the temperature of crystal inversion was 590 ℃.The strongest fluorescence peak of Nd:Y_2O_3 laser ceramics precursor was 9421.646 cm~(-1), that was Nd~(3+4)F_(3/2)-~4I_(11/2).