硅酸盐通报
硅痠鹽通報
규산염통보
BULLETIN OF THE CHINESE CERAMIC SOCIETY
2009年
6期
1340-1346
,共7页
郑举功%陈泉水%刘晓东%杨婷%刘崇羽
鄭舉功%陳泉水%劉曉東%楊婷%劉崇羽
정거공%진천수%류효동%양정%류숭우
室温离子液体%微波%ZnO%多形貌%光致发光性能
室溫離子液體%微波%ZnO%多形貌%光緻髮光性能
실온리자액체%미파%ZnO%다형모%광치발광성능
RTILs%microwave%zinc oxide%multi morphology%photoluminescence property
以[Bmim]Cl、[Bmim]BF_4、[C_2OH]mimCl和[C_2OHmim]BF_4四种室温离子液体为模板,采用微波加热前驱体Zn(OH)_4~(2-)溶液的方法制备了多形貌纳米/微米ZnO.采用XRD、SEM、TEM对实验样品进行了结构和形貌表征,通过SEM照片分析了不同合成条件对产物形貌的影响.结果表明:合成产物为结晶良好,具有六方纤锌矿结构的ZnO;不同离子液体中合成了鳞状、片状、棒状、锥状纳米ZnO晶体单元,大量ZnO晶体聚集成微米球、花簇;随着前驱体原料配比增大,[0001]方向择优生长明显;随温度从80 ℃增加到95 ℃,ZnO纳米锥生长趋势总体趋于明显, 长径比增大,同时产物形貌的规整性也明显变好;探讨了多形貌纳米/微米ZnO的生长机理;采用室温下光致发光(PL)光谱对多形貌纳米ZnO的光学性能研究表明,多形貌纳米ZnO具有较强的紫外发射和相对较弱的蓝绿发射,离子液体[Bmim]Cl中合成的ZnO纳米锥在387 nm处紫外发射峰强度最大,离子液体[C_2OHmim]Cl 中合成的ZnO纳米片在497 nm处有较强的绿光发射峰.
以[Bmim]Cl、[Bmim]BF_4、[C_2OH]mimCl和[C_2OHmim]BF_4四種室溫離子液體為模闆,採用微波加熱前驅體Zn(OH)_4~(2-)溶液的方法製備瞭多形貌納米/微米ZnO.採用XRD、SEM、TEM對實驗樣品進行瞭結構和形貌錶徵,通過SEM照片分析瞭不同閤成條件對產物形貌的影響.結果錶明:閤成產物為結晶良好,具有六方纖鋅礦結構的ZnO;不同離子液體中閤成瞭鱗狀、片狀、棒狀、錐狀納米ZnO晶體單元,大量ZnO晶體聚集成微米毬、花簇;隨著前驅體原料配比增大,[0001]方嚮擇優生長明顯;隨溫度從80 ℃增加到95 ℃,ZnO納米錐生長趨勢總體趨于明顯, 長徑比增大,同時產物形貌的規整性也明顯變好;探討瞭多形貌納米/微米ZnO的生長機理;採用室溫下光緻髮光(PL)光譜對多形貌納米ZnO的光學性能研究錶明,多形貌納米ZnO具有較彊的紫外髮射和相對較弱的藍綠髮射,離子液體[Bmim]Cl中閤成的ZnO納米錐在387 nm處紫外髮射峰彊度最大,離子液體[C_2OHmim]Cl 中閤成的ZnO納米片在497 nm處有較彊的綠光髮射峰.
이[Bmim]Cl、[Bmim]BF_4、[C_2OH]mimCl화[C_2OHmim]BF_4사충실온리자액체위모판,채용미파가열전구체Zn(OH)_4~(2-)용액적방법제비료다형모납미/미미ZnO.채용XRD、SEM、TEM대실험양품진행료결구화형모표정,통과SEM조편분석료불동합성조건대산물형모적영향.결과표명:합성산물위결정량호,구유륙방섬자광결구적ZnO;불동리자액체중합성료린상、편상、봉상、추상납미ZnO정체단원,대량ZnO정체취집성미미구、화족;수착전구체원료배비증대,[0001]방향택우생장명현;수온도종80 ℃증가도95 ℃,ZnO납미추생장추세총체추우명현, 장경비증대,동시산물형모적규정성야명현변호;탐토료다형모납미/미미ZnO적생장궤리;채용실온하광치발광(PL)광보대다형모납미ZnO적광학성능연구표명,다형모납미ZnO구유교강적자외발사화상대교약적람록발사,리자액체[Bmim]Cl중합성적ZnO납미추재387 nm처자외발사봉강도최대,리자액체[C_2OHmim]Cl 중합성적ZnO납미편재497 nm처유교강적록광발사봉.
Using room temperature ionic liquids(RTILs)[Bmim]Cl, [Bmim]BF_4, [C_2OH]mimCl and [C_2OHmim]BF_4 as template, zinc oxide of different morphology was successfully synthesized with microwave method in Zn(OH)_4~(2-) precursor solution. The as-prepared samples were characterized by X-ray diffraction(XRD), scanning electron microscopy(SEM), transmission electron microscopy(TEM). The influence of different conditions on the morphology were also studied by SEM. The results showed that the nanometer ZnO were single crystalline with the wurtzite structure. ZnO nanoflakies, nanosheets, nanorods , nanocones, micro spherical and micro flowers were prepared with different RTILs. Preferential growth orientation along the [0001] direction became more apparent with the increasing of raw materials ratio. ZnO nanocones tend to be uniform, the crystallization is gradually improved and the length-diameter ratio is slowly raised with the temperature increasing from 80 ℃ to 95 ℃. A possible growth mechanism was also proposed to account for the formation of the multi-morphology ZnO. The photoluminescence spectra of the multi-morphology ZnO were studied at room temperature. The spectra show the sample which were prepared using RTILs as template emitted strong ultra violet emissions and relatively weak defect emissions. ZnO nanocones prepared with [Bmim]Cl as template emitted the most strong ultra violet emission peak at 387 nm. ZnO nanosheets prepared with [C_2OHmim]Cl as template generated the sharp strong green light emission peak at 387 nm.