NPB

NPB model is relatively perfect and has been applied in industrial production .

数群集合平衡模型的研究比较完善，现已应用于工业。

Optical and Electrical Properties of NPB / Alq_3 Organic Quantum Well

NPB/Alq3有机量子阱光电特性研究

Influence of Hole Transport Layer NPB on Performance of OLED

空穴传输层NPB对OLED性能的影响

Performance Analysis of NPB Benchmark on Domestic Tera-Scale Cluster Systems

国产万亿次机群系统NPB性能测试分析

Improving the Performance of Organic Light-emitting Device Using Doped Alq_3 into NPB

在NPB中掺杂Alq3改善有机电致发光器件的性能

The First NPB Experiment in Space

中性粒子束首次空间试验获得成功

NPB Performance Evaluation of Tera-Scale Clusters and Implementation of Parallel Non-Numerical Algorithm with Performance Analysis

万亿次机群系统NPB性能评测与并行非数值算法实现及性能分析

Research of White Organic Light-emitting Diodes with NPB : DPVBi-doped Layer

具有NPB：DPVBi掺杂层的有机白光器件的研究

NPB acts as potential well for the holes and CBP does as potential barrier .

NPB为空穴的势阱，CBP为空穴的势垒。

Fullerene-doped hole transport NPB layer in organic light-emitting devices

富勒烯掺杂NPB空穴传输层的有机电致发光器件

Plasma levels of neuropeptide B ( NPB ) and resistin were measured in the population with different glucose tolerances .

在不同糖耐量人群测定血浆神经肽B和抵抗素水平。

Finally , the benchmarks for performance evaluation , including LinPACK , NPB and PMB , are done on this high performance computer .

最后，运用基准测试程序（LinPACK、NPB和PMB）对这一高性能计算平台的进行测试，显示了该平台高效的并行计算性能，以及对程序可移植性的良好支持。

We adopt fine blue luminescence material of AND , adulterate it with NPB , finally a blue luminescence device is finished .

我们采用优良的蓝光材料AND，并且使用NPB进行掺杂，制备了一种蓝光器件。

Analyses of Intragastric-pressure Decrease by Electric-stimulation of NPB in Rat

不同强度、频率电刺激大鼠臂旁核降低胃内压的分析

The typical device structure was glass substrate / ITO / NPB / Alq3 / BPhen / LiF / Al .

器件的基本结构为：玻璃衬底/ITO/NPB/Alq3/BPhen/LiF/Al。

The emission spectrum is composed of red , yellow , green spectral components from each doped layer and blue spectral component from the hole-transporting layer ( NPB ) .

3个掺杂层分别提供白光发射的红、黄和绿光成分，而蓝光成分则来自于空穴传输层NPB本身的发射。

In order to manipulate the strength of exciplex emission , thin layer of CBP was inserted into the interface of NPB / BDHFLYDFLQ heterojunction .

为了调制激基复合物发光的强度，用薄层的CBP作为隔离层加入到NPB和BDHFLYDFLQ材料之间。

The hole-only device ( ITO / NPB / Ag ) was prepared to teste the admittance spectrum , and the experimental data is analyzed with the model .

制备了仅传空穴的单层器件（ITO/NPB/Ag），测试其导纳谱，并通过用该模型拟合实验数据，得到了NPB的迁移率和色散参数。

When it is between 1 nm and 8 nm , NPB and Alq_3 both contribute to emitting , and EL spectrum includes the blue and green emission .

当厚度在1nm到8nm时，NPB层和Alq3层对发光都有贡献，EL谱线包括蓝光发射和绿光发射。

Alq and BCP are used as electron-transporting and exciton-blocking layers , respectively , and NPB as a blue light-emitting as well as hole-transporting layer .

Alq和BCP分别用作电子传输层和激子阻挡层，NPB用作蓝光发光层和空穴传输层。

The fabrication and improvement of blue devices have been carried out , which are based on NPB by using conventional organic materials with superior properties and by energy level matching of various organic layers as well as optimization of device structure .

利用常规的光电性能优良的有机功能材料，通过各有机功能层的能级匹配和器件结构的优化设计，对基于NPB的蓝光器件的制备和性能改善进行了较为深入的研究。

On this basis , we study the performances of these diodes and the influence of device structure on performance . Firstly , we studied the effect of thickness of NPB and Zn ( 4-TfmBTZ ) 2 on device performance .

首先，我们研究了NPB与Zn（4-TfmBTZ）2厚度对器件性能的影响。

The OLED device with ITO / TPA ( FP ) 3 / ALQ3 / Mg : Ag configuration show high hole-transporting ability , in which the power efficiency is higher than that in similar NPB devices .

其中封端的空穴传输材料在ITO／TPA（FP）3／ALQ3／Mg∶Ag器件中表现出高的空穴传输能力，其效率高于类似NPB的同类器件。

A new-type organic micro-cavity blue-emitting diode has been fabricated by using glass / DBR / ITO / NPB / NPB ∶ perylene / TAZ / Alq / Al device structures .

利用玻璃/DBR/ITO/NPB/NPB∶二萘嵌苯/TAZ/Alq/Al器件结构，研制了有机微腔蓝光发射二极管。

Organic light-emitting device ( OLED ) based on Alq_3 emitting layer , ITO transparent anode and NPB hole transport layer were fabricated . The structure was ITO / NPB / Alq_3 / LiF / Al .

以ITO为透明电极，NPB为空穴传输层，Alq3为发光层，制备出ITO/NPB/Alq3/LiF/Al结构的有机电致发光显示器。

The organic microcavity light emitting diode was fabricated using structure Glass / DBR / ITO / NPB / NPB : Alq / Al . Here NPB and Alq were mixed as the emitting material .

采用结构Glass/DBR/ITO/NPB/NPB∶Alq/Alq/Al制作了有机微腔电致发光器件。

TiO_2 achieved by the Sol-gel method are inserted in organic EL devices as a buffer layer . The effect of the different TiO_2 thickness on the device with the structure ITO / TiO_2 / NPB / Alq_3 / LiF / Al .

以溶胶凝胶法制备的TiO2作为空穴缓冲层，在结构为ITO/TiO2/NPB/Alq/LiF/Al的器件中，改善了器件的发光效率。

This experiment made use of multi-source organic molecular vapor phase deposition system and improved production process of this system . Prepared ITO / NPB / Alq3 / LiF / Al multi-layer organic light-emitting device , tested current-voltage characteristic , Brightness-voltage characteristic and electroluminescence spectra of the device .

本文利用多源自动控温有机分子气相淀积系统制备了ITO/NPB/Alq3/LiF/Al多层有机电致发光器件，测试了器件的电流电压特性，器件的亮度电压特性，器件的电致发光光谱。

As compared with conventional doped device with organic dye as dopant in ETL , Rubrene as dopant in the present experiment is doped into an active layer which is formed by uniformly mutual doping of Alq as material of ETL and NPB as material of HTL .

与常规的在电子传输层中掺杂有机染料的掺杂器件相比，本实验是在Alq（电子传输层材料）与NPB（空穴传输层材料）形成的均匀互掺有源层中，再掺杂染料Rubrene。