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The microstructure characteristic of the cold-rolled deformed nanocrystalline nickel metal is studied by transmission electron microscopy. The results show that there are step structures nearby the grain boundary (CB), and the contrast of stress field in front of the step corresponds to the step in the shape. It is indicated that the interaction between twins and dislocations is not a necessary condition to realizing the deformation. In the later stage of the deformation when the grain size becomes about lOOnm, the deformation can depend upon the moving of the boundary of the stack faults (SFs) which result from the partial dislocations emitted from CBs. However, when the size of SFs grows up, the local internal stress which is in front of the step gradually becomes higher. When this stress reaches a critical value which stops the gliding of the partial dislocations, the SFs will stop to grow up and leave a step structure behind. 相似文献
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以2',6'-二氟-2,3'-联吡啶(Hdfpypy)为主配体,空间位阻的3-乙酰基樟脑(Hacam)为辅助配体,合成了二-[2',6'-二氟-2,3'-联吡啶-N,C4'][3-乙酰基-1,7,7-三甲基-双环[2.2.1]2-庚酮-O,O]铱(Ⅲ)((dfpypy)2Ir(acam))。在四氢呋喃(THF)溶液中,配合物光致发光(PL)光谱最大发射峰值为466 nm,在487nm左右有一个不明显的肩峰,半峰宽为55 nm。配合物在脱气THF溶液中的PL量子效率为0.51。以(dfpypy)2Ir(acam)为发光层,制备了器件结构为ITO/HATCN(1 nm)/TAPC(40 nm)/(dfpypy)2Ir(acam)(10 nm)/BmpypB(40 nm)/LiF(1 nm)/Al(90 nm)的蓝色非掺杂磷光发光器件。电致发光(EL)光谱的最大发射峰值为474 nm。器件的启动电压为3.5 V。在电流密度为20 mA·cm-2时,CIE色坐标值为(0.17,0.29)。在驱动电压为11 V时,器件最大亮度为2 170 cd·m-2。在驱动电压为4.2 V时,最大功率效率为5.25 lm·W-1,最大亮度效率为6.45 cd·A-1。 相似文献
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以2',6'-二氟-2,3'-联吡啶(Hdfpypy)为主配体,乙酰丙酮为辅助配体,合成了二-[2',6'-二氟-2,3'-联吡啶-N,C4'][2,4-戊二酮-O,O]铱(Ⅲ)配合物((dfpypy)2Ir(acac))。在THF溶液中,该配合物溶液最大光致发光光谱为465 nm(半峰宽为53 nm),同时伴有490 nm的肩峰,与面式-Ir(dfpypy)3在438和463 nm两个强度相近的发光光谱相比,发生了红移。配合物在脱气四氢呋喃溶液中的PL量子效率为0.41。将(dfpypy)2Ir(acac)以不同的浓度掺杂在主体材料聚乙烯基咔唑(PVK)中,制备了器件结构为:ITO/PEDOT∶PSS(聚二氧乙基噻吩∶聚对苯乙烯磺酸)/PVK∶(dfpypy)2Ir(acac)(100∶x)(70 nm)/Ba/Al的蓝色聚合物发光器件(x代表掺杂量)。在驱动电压为15.4 V时,2%掺杂器件的最大发光亮度为1400 cd/m2。当电流密度为0.23×10-3A/cm2时,2%掺杂器件最大亮度效率(ηc)为1.6 cd/A。器件的色坐标(CIE)值为(0.15,0.27)。 相似文献
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