中国科学技术大学学报
中國科學技術大學學報
중국과학기술대학학보
JOURNAL OF UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA
2014年
12期
996-1000,1006
,共6页
郭盼盼%韩玉岩%张文华%刘凌云%徐法强
郭盼盼%韓玉巖%張文華%劉凌雲%徐法彊
곽반반%한옥암%장문화%류릉운%서법강
有机单晶%VS%PVD%PTCDA%衬底温度%光学性能
有機單晶%VS%PVD%PTCDA%襯底溫度%光學性能
유궤단정%VS%PVD%PTCDA%츤저온도%광학성능
organic single-crystal nanostructure%VS%PVD%PTCDA%substrate temperature%optical property
在分子束外延系统(MBE)中以玻璃为衬底,使用物理气相沉积(PVD)方法制备了苝四甲酸二酐(PTCDA)的纳米结构;并利用扫描/透射电子显微镜(SEM/TEM ),X射线衍射(XRD),紫外‐可见分光光度计(UV‐vis)和荧光谱仪(PL )等手段对样品的形貌及光学性能进行了系统的研究。结果表明,纳米结构的形貌主要受衬底温度(Ts )的影响;单晶 PTCDA纳米棒和纳米线的形成机制是基于VS(vapor‐solid)机理。此外,XRD结果表明制备的纳米结构均为α相PTCDA 。然而,纳米结构的尺寸和结晶度的不同,导致了它们光学性能的差异。
在分子束外延繫統(MBE)中以玻璃為襯底,使用物理氣相沉積(PVD)方法製備瞭苝四甲痠二酐(PTCDA)的納米結構;併利用掃描/透射電子顯微鏡(SEM/TEM ),X射線衍射(XRD),紫外‐可見分光光度計(UV‐vis)和熒光譜儀(PL )等手段對樣品的形貌及光學性能進行瞭繫統的研究。結果錶明,納米結構的形貌主要受襯底溫度(Ts )的影響;單晶 PTCDA納米棒和納米線的形成機製是基于VS(vapor‐solid)機理。此外,XRD結果錶明製備的納米結構均為α相PTCDA 。然而,納米結構的呎吋和結晶度的不同,導緻瞭它們光學性能的差異。
재분자속외연계통(MBE)중이파리위츤저,사용물리기상침적(PVD)방법제비료패사갑산이항(PTCDA)적납미결구;병이용소묘/투사전자현미경(SEM/TEM ),X사선연사(XRD),자외‐가견분광광도계(UV‐vis)화형광보의(PL )등수단대양품적형모급광학성능진행료계통적연구。결과표명,납미결구적형모주요수츤저온도(Ts )적영향;단정 PTCDA납미봉화납미선적형성궤제시기우VS(vapor‐solid)궤리。차외,XRD결과표명제비적납미결구균위α상PTCDA 。연이,납미결구적척촌화결정도적불동,도치료타문광학성능적차이。
3 ,4 ,9 ,10‐perylene‐tetracarboxylic‐dianhydride (PTCDA) nanostructures were prepared on glass substrate in a molecular beam epitaxy (MBE ) system via physical vapor deposition (PVD ) method . Scanning/transmission electron microscopy (SEM/T EM ) , X‐ray diffraction (XRD ) , ultraviolet visible absorption spectra (UV‐vis ) and photoluminescence emission (PL ) techniques were applied for the systematic characterizations of the morphologies and optical properties of those nanostructures .It was found that the morphologies of PTCDA nanostructures were mainly affected by substrate temperature (Ts ) and the formation of single crystalline PTCDA nanorods and nanowires were correlated well with the traditional vapor‐solid (VS ) nucleation mechanism . XRD study indicated that only the α‐PTCDA was formed regardless of the Ts .However ,differences in size and crystallinity of the nanostructures caused a subsequent change in their optical properties .
