人工晶体学报
人工晶體學報
인공정체학보
2008年
6期
1401-1405
,共5页
蔡芳芳%魏鸿源%范海波%杨安丽%张攀峰%刘祥林
蔡芳芳%魏鴻源%範海波%楊安麗%張攀峰%劉祥林
채방방%위홍원%범해파%양안려%장반봉%류상림
氧化锌纳米棒%MOCVD%载气流量%形貌
氧化鋅納米棒%MOCVD%載氣流量%形貌
양화자납미봉%MOCVD%재기류량%형모
ZnO nanorod%MOCVD%carrier gas flux%morphology
本文研究了在金属有机化学气相沉积法(MOCVD)生长过程中,锌(Zn)源和氧(O)源载气流量的改变对ZnO纳米棒阵列的影响.通过改变源材料载气的流量,得到了直径从150 nm到20 nm范围、均一性明显改善的ZnO纳米棒.采用扫描电子显微镜(SEM),X射线衍射图谱(XRD),拉曼光谱(Raman)和光致荧光光谱(PL)等测试手段对样品的形貌结构和光学特性进行了表征.SEM和XRD结果表明当Zn源和O源的载气流量均为1 SLM时,所得的纳米棒直径最均匀,排列整齐,垂直于衬底生长,且结晶度最好.PL谱显示纳米棒的紫外带边峰发生了蓝移,可能与表面效应的增加有关.
本文研究瞭在金屬有機化學氣相沉積法(MOCVD)生長過程中,鋅(Zn)源和氧(O)源載氣流量的改變對ZnO納米棒陣列的影響.通過改變源材料載氣的流量,得到瞭直徑從150 nm到20 nm範圍、均一性明顯改善的ZnO納米棒.採用掃描電子顯微鏡(SEM),X射線衍射圖譜(XRD),拉曼光譜(Raman)和光緻熒光光譜(PL)等測試手段對樣品的形貌結構和光學特性進行瞭錶徵.SEM和XRD結果錶明噹Zn源和O源的載氣流量均為1 SLM時,所得的納米棒直徑最均勻,排列整齊,垂直于襯底生長,且結晶度最好.PL譜顯示納米棒的紫外帶邊峰髮生瞭藍移,可能與錶麵效應的增加有關.
본문연구료재금속유궤화학기상침적법(MOCVD)생장과정중,자(Zn)원화양(O)원재기류량적개변대ZnO납미봉진렬적영향.통과개변원재료재기적류량,득도료직경종150 nm도20 nm범위、균일성명현개선적ZnO납미봉.채용소묘전자현미경(SEM),X사선연사도보(XRD),랍만광보(Raman)화광치형광광보(PL)등측시수단대양품적형모결구화광학특성진행료표정.SEM화XRD결과표명당Zn원화O원적재기류량균위1 SLM시,소득적납미봉직경최균균,배렬정제,수직우츤저생장,차결정도최호.PL보현시납미봉적자외대변봉발생료람이,가능여표면효응적증가유관.
ZnO nanorod arrays with different morphologies were grown by metalorganic chemical vapor deposition(MOCVD).The diameters of nanorods range from 150 nm to 20 nm through changing the carrier gas flux during the growth process.Measurements such as scanning electron microscope(SEM),X-ray diffraction(XRD),Raman scattering and photoluminescence(PL)spectrum were employed to analyze the differences of these nanorods.It was found that when both carrier gas flux of Zn and O reactant are 1 SLM,we can obtain the best vertically aligned and uniform nanorods.Furthermore,the PL spectrum reveals a blueshift of UV emission peak,which may be assigned to the increase of surface effect.
