注入层的英文

• input horizon

• 注入    pour into; empty into; inpou ...
• 层    I storey; tier; stratum
• 离子注入层    ion implanted layer
• 注入层段    injection interval
• 总注入层段    entire injection interval
• 插入层    interposed layer
• 贯入层    penetration coat; penetration course
• 接入层    as access stratum
• 进入层    entry layer
• 输入层    input layer
• 注入    pour into; empty into; inpouring; injection; infusion [拉丁语]; infunde [法国]; abouchement; influxion 将水注入容器 pour water into a vessel; 长江注入东海。 the changjiang river empties into the east china sea
• 表面渗入层    penetration surface course
• 导入层依据    derive layers by
• 非接入层    nas non access stratum; nas non-access stratum
• 高收入层    upper income level
• 接入层次    access level
• 未侵入层    non-invaded bed
• 未受侵入层    noninvaded formation
• 大注入    large injection
• 单注入    single injection
• 反注入    back injection
• 灌输,注入    implant
• 光注入    light injection; optical injection; photoinjection
• 后注入    posinjeciton
• 流入,注入    influx

• Fabrication of ohmic contacts to 4h - sic created by ion - implantation
  离子注入层的欧姆接触的制备
• Lif acting as the electron inject layer can increase the luminous efficiency and decrease the operating voltage ; cupc acting as the hole inject layer can improve the device ' s stability , but at the same time , it will cause the reduction of brightness and efficiency
  Lif作为电子注入层，能够明显提高器件的发光效率，降低器件的工作电压； cupc作为空穴注入层能够使器件稳定性提高，但也导致了亮度和效率的下降。
• In this paper , we implanted mn + ion of different dose into undoped semi - insulating ( 100 ) gaas substrate then performed rapid thermal annealing in different temperature and time . studied the different annealing condition dependence of the samples " structure , electrical and magnetic properties and the relation of the mn + forms and these properties
  本课题采用离子注入的方法将不同剂量的mn ~ +注入到非掺杂半绝缘( 100 ) gaas单晶衬底中，然后进行不同温度和时间的快速热退火处理，研究了不同的退火条件对样品注入层的晶体结构、电特性和磁特性的影响以及mn ~ +在样品中的存在状态与这些性质之间的关系。
• When a mutually doped transitional layer is introduced , no matter it is added to the interspace of electron transport layer and hole transport layer or to the interspace of the hole transport layer and hole inject layer , it can reduce the defects of the interface and result in the increase of brightness and the decrease of the operating voltage obviously
  我们在器件中引入了互掺过渡层结构，发现不管在电子传输层和空穴传输层之间，还是在空穴传输层和空穴注入层之间采用这样的掺杂结构，都能够有效减少有机层间的界面缺陷态，明显提高了器件的亮度，降低了器件的工作电压。
• This paper has five chapters : the first chapter : describing the evolution of the organic / polymeric electroluminescent device , analyzing its advantages and disadvantages when acting as flat display , introducing the oled structure , luminous mechanics and the methods of increasing the luminous efficiency , etc . the second chapter : discussing the effects on the performance of oled if the lif acts as an electron inject layer and / or cupc acts as a hole inject layer
  本文共分五章：第一章：详细叙述了有机聚合物电致发光器件的研究进展，分析了其作为平板显示的优缺点，介绍了oled结构、发光原理和提高其效率的途径等。第二章：讨论了lif作为电子注入层， cupc作为空穴注入层对器件性能的影响。

• 注入层的日语：インプラント層 インプラントそう