排序方式: 共有37条查询结果,搜索用时 15 毫秒
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研究了2,3,3-三甲基-1-H-吲哚方酸菁的场效应性质, 通过X射线衍射证实了方酸菁分子内电荷分离结构以及分子间面面堆积模式, 并在Si/SiO2基片上通过真空蒸镀和旋涂的方法制备了p型晶体管器件. 通过对器件性能与沟道形态的研究, 我们发现退火处理能促进方酸菁薄膜由无定形态向多晶态转变, 从而使薄膜晶体管的迁移率从10-5 cm2?V-1?s-1量级提高到10-3 cm2?V-1?s-1量级. 顶接触结构单晶器件获得了7.8×10-2 cm2?V-1?s-1的迁移率. 未封装的方酸菁晶体管在大气中也表现出较好的稳定性. 相似文献
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A new phosphorescent material bis(2-phenyl-benzoimiazole) acetylacetonato iridium(PBI)2 IrAcac)is designed and synthesized.The absorption,photoluminescence and electroluminescence are measured.The pllymer-based light-emitting devices which use polyvinylcarbazole(PVK) as host and (PBI)2 IrAcac as emitter were fabricated.These light-emitting devices show a bright green emission at 548nm,The device ITO/(PBI)2IrAcac:PVK/BCP/Alq3/Mg:Ag shows a very high efficiency.A Peak external quantum efficiency of 21.5cd/A(5.8%) was obtained at 0.1mA/cm^2.The maximum brightness is 3840cd/m^2. 相似文献
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空间调制快拍成像测偏技术能通过单次曝光同时获取目标全部斯托克斯参量.针对传统参考光线定标技术不适用动态环境(如温度变化)下偏振信息精确测量的瓶颈问题,本文提出了线性剪切空间调制快拍成像动态定标技术.该技术采用沿着同一方向剪切的两块改进型萨瓦偏光镜作为核心调制器件,两者厚度比为1∶2,通过快拍获取的干涉图和厚度比,可以推演出核心调制器件产生的空间调制相位因子,由此解调出目标全部偏振信息.该技术最显著的优点是测量目标与系统定标同时进行,过程中不需要任何预知参考目标.本文对该技术方案进行了详细的理论分析,并通过数值模拟和搭建实验平台,验证了该方案的可行性;为空间调制快拍成像测偏技术的定标提供了新思路,有力推动其动态环境下工程实际应用进程. 相似文献
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In this note,the author find an upper bound formula for the number of the p×p normalized Latin Square,the first row and column of which are both standard order 1,2,...,p. 相似文献
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二氰基二硫纶·5-硝基邻菲咯啉合钴(Ⅱ)的电子光谱及理论研究 总被引:8,自引:0,他引:8
报道了配合物Co(mnt)(5 NO2 phen) 在几种溶剂中的电子光谱,用RHF SCF MO理论的PM3方法进行了几何构型优化,研究了配合物基态和激发态的电子结构.由ZINDO/S方法的组态相互作用(CI)计算给出了理论光谱,计算结果与实测谱吻合较好.研究发现配合物紫外区的吸收带本质上属于配体的πb→π* 跃迁,可见光区400~500 nm存在本质上属于配体5 NO2 phen到配体mnt2-的荷移跃迁. 相似文献
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We introduce a novel method for sandwiched-composite-film encapsulation that successfully extends the lifetime of flexible organic light-emitting diodes (FOLEDs). The encapsulation layers include two parts: one is a thin multilayer barrier coating, which is made up of two applications of alternating layers composed of a polymer layer (consisting of UV capable resins) and a ceramic layer (consisting of titanium nitride with excellent barrier performance), and the other is a thick polymer film of approximately 70μm in thickness fabricated by a doctor blade onto the thin encapsulation film described above. FOLEDs encapsulated by this novel method have a longer lifetime, and this lifetime is 74 times as much as the lifetime of unencapsulated ones. 相似文献