发光学报
髮光學報
발광학보
Chinese Journal of Luminescence
2015年
12期
1370-1374
,共5页
吴春霞%苏龙兴%何自娟%宋刑%孙青峰
吳春霞%囌龍興%何自娟%宋刑%孫青峰
오춘하%소룡흥%하자연%송형%손청봉
ZnO微米棒%单层石墨烯%光致发光%拉曼
ZnO微米棒%單層石墨烯%光緻髮光%拉曼
ZnO미미봉%단층석묵희%광치발광%랍만
ZnO microrods%single layer grapheme%photoluminescence%Raman
采用化学气相沉积(CVD)方法制备了具有良好结晶质量和(002)择优取向的ZnO微米棒。在此基础上,选取单根ZnO微米棒,将其部分搁置于单层石墨烯表面。光致发光( PL)谱结果表明,石墨烯不仅增强了ZnO微米棒的紫外发光强度,同时也对光场在ZnO微米棒中的分布有很大的限域作用。分析认为这是由于石墨烯的表面等离子效应引起了ZnO微米棒与石墨烯之间的光-物质相互作用导致的。在拉曼( Raman)光谱中,石墨烯对ZnO微米棒的E2( L)声子振动模和E2( H)声子振动模的强度具有明显的减弱效应,这进一步证明二者之间存在光子的传输和电荷的转移,从而导致其晶格振动受到抑制。
採用化學氣相沉積(CVD)方法製備瞭具有良好結晶質量和(002)擇優取嚮的ZnO微米棒。在此基礎上,選取單根ZnO微米棒,將其部分擱置于單層石墨烯錶麵。光緻髮光( PL)譜結果錶明,石墨烯不僅增彊瞭ZnO微米棒的紫外髮光彊度,同時也對光場在ZnO微米棒中的分佈有很大的限域作用。分析認為這是由于石墨烯的錶麵等離子效應引起瞭ZnO微米棒與石墨烯之間的光-物質相互作用導緻的。在拉曼( Raman)光譜中,石墨烯對ZnO微米棒的E2( L)聲子振動模和E2( H)聲子振動模的彊度具有明顯的減弱效應,這進一步證明二者之間存在光子的傳輸和電荷的轉移,從而導緻其晶格振動受到抑製。
채용화학기상침적(CVD)방법제비료구유량호결정질량화(002)택우취향적ZnO미미봉。재차기출상,선취단근ZnO미미봉,장기부분각치우단층석묵희표면。광치발광( PL)보결과표명,석묵희불부증강료ZnO미미봉적자외발광강도,동시야대광장재ZnO미미봉중적분포유흔대적한역작용。분석인위저시유우석묵희적표면등리자효응인기료ZnO미미봉여석묵희지간적광-물질상호작용도치적。재랍만( Raman)광보중,석묵희대ZnO미미봉적E2( L)성자진동모화E2( H)성자진동모적강도구유명현적감약효응,저진일보증명이자지간존재광자적전수화전하적전이,종이도치기정격진동수도억제。
High crystal quality and ( 002 ) orientation preferred ZnO microrods were grown by the method of chemical vapor deposition ( CVD) . The optical properties of ZnO microrod on graphene substrate were investigated. The photoluminescence ( PL) spectra revealed that the luminous intensi-ty of ZnO microrod on graphene substrate was enhanced as twice as that without graphene substrate. The distribution of light field in ZnO microrod was also restricted by graphene. These are all caused by grapheme surface plasmon. In the case of ZnO microrod on the graphene substrate, E2 ( L) and E2 ( H) Raman intensity decreased dramatically by comparing with which of the ZnO microrod with-out graphene substrate. This further indicates that there is stronger light-matter interaction at the in-terface. Hence, the lattice vibration of ZnO microrod was restricted by the graphene.
