内嵌CuO薄膜对并五苯薄膜晶体管性能的改善

制备了基于内嵌氧化物铜(CuO)薄膜的并五苯薄膜晶体管器件. 将3 nm CuO薄膜内嵌入到并五苯(pentacene)中, 作为空穴注入层, 降低电极与并五苯之间的空穴注入势垒. 相对于纯并五苯薄膜晶体管器件, 研制的晶体管的迁移率、阈值电压(V_TH)、电流开关比(I_on/I_off) 等参数都有明显改善. X射线光电子能谱数据表明, 这种空穴注入势垒的降低源自并五苯向CuO的电子转移.     

V2O5电极修饰对C60/Pentacene双层异质结场效应晶体管性能的影响

制备了用过渡金属氧化物V₂O₅修饰Al源、漏电极的C₆₀/Pentacene双层异质结有机场效应管.该构型器件与未修饰器件相比,呈现出典型的双极型晶体管传输特性.电子迁移率和空穴迁移率分别达到8.6×10^-2cm²/V·s^-1和6.4×10^-2cm²/V·s^-1,阈值电压分别为25 V和-25 V.器件性能改善的原因主要是由于插入V₂O₅修饰层后,可以明显降低Al电极与Pentacene之间的接触势垒,提高空穴的有效注入,从而使电子和空穴的注入接近平衡.研究表明,采用V₂O₅修饰电极方法,是制备低成本、高性能的双极型有机场效应管并实现其商业应用的有效途径.     

超薄EuF3电极修饰层对有机场效应晶体管性能的提升

采用EuF₃薄层修饰低功函数金属Ag源、漏电极,制备了CuPc有机场效应晶体管,研究了不同厚度EuF₃对器件性能的影响。结果表明,EuF₃的厚度由0 nm增至0.6 nm时,接触电阻由23.65×10⁵ Ω·cm减 至3.86×10⁵ Ω·cm,使得器件载流子迁移率由1.5×10^-3 cm²·V^-1·s^-1提高到4.65×10^-3 cm²·V^-1·s^-1。 UPS测试结果表明,薄层EuF₃在Ag与有机半导体间形成了界面偶极势垒,使源漏电极表面功函数增大,空穴注入势垒降低,Ag电极与有机半导体层界面的接触电阻减小,进而提升了空穴的注入效率。     

衬底加热和电极修饰对提高有机场效应晶体管性能的影响

通过衬底加热和氧化钼(MoO3)修饰源漏极制备了并五苯有机场效应晶体管.研究了衬底温度和电极修饰层厚度对器件性能的影响.实验结果表明:当衬底温度为60℃、MoO3修饰层为10 nm时,器件性能获得了显著增强,场效应迁移率由原来的3.39×10-3 cm2/(V·s)提高到2.25 ×10-1 cm2/(V·s),阈值电压由12 V降低到3V.器件性能的改善归因于:衬底加热可以优化有源层形貌,改善载流子传输;而MoO3修饰层显著降低了电极与有源层之间的接触势垒,提高了载流子的注入.因此,衬底加热与电极修饰对于制备高性能有机场效应晶体管是不可或缺的优化手段.     

一种采用Li3N掺杂电子注入层的底发射倒置结构OLED的制备

采用Li3N掺杂电子注入层Alq3∶Li3N,制作了一种结构为ITO/Alq3 Alq3∶Li3N/Alq3/NPB/MoO3/Al的倒置底发射有机发光器件.其中ITO玻璃作为透明阴极,金属Al作为顶部阳极,在ITO阴极与电子传输层之间加入Li3N n型掺杂层,改善了该器件的电子注入和传输能力|在Al阳极与空穴传输层之间加入MoO3缓冲层,降低了Al阳极与NPB之间较大的空穴注入势垒,改善了空穴注入能力.实验表明:此结构的倒置底发射有机发光器件性能可达到传统结构的常用有机发光器件如ITO/NPB/Alq3/LiF/Al的性能,完全可以满足非晶硅薄膜晶体管有源有机发光器件中驱动电路的匹配及性能要求.     

基于NPB的垂直构型有机发光晶体管的光电特性研究

通过将有机空穴阻挡材料BCP薄层插入垂直构型有机发光晶体管器件ITO/NPB（40nm）/Al（30nm）/NPB（20nm）/Alq₃（55nm）/Al中的不同位置对器件光电特性的影响来研究器件漏电流较大的原因以及器件中具体的载流子过程.充分证明了栅极注入的空穴对沟道中的电流有贡献.进而通过用LiF薄层修饰漏极来增强电子的注入并减小漏电流,得到了相对稳定的发光晶体管器件,其发光强度有很大提高并可很好地由栅极电压来进行调控.更换发光材料层容易得到不同颜色的发光晶体管. 关键词： 垂直构型有机发光晶体管（VOLET） 静电感应晶体管（SIT） N')" href="#">NPB （N N′-diphenyl-N')" href="#">N′-diphenyl-N N′-bis（1-naphtyl）-1')" href="#">N′-bis（1-naphtyl）-1 1′-biphenyl-4     

超薄EuF_3电极修饰层对有机场效应晶体管性能的提升

采用EuF3薄层修饰低功函数金属Ag源、漏电极,制备了CuPc有机场效应晶体管,研究了不同厚度EuF3对器件性能的影响。结果表明,EuF3的厚度由0 nm增至0.6 nm时,接触电阻由23.65×105Ω·cm减至3.86×105Ω·cm,使得器件载流子迁移率由1.5×10-3cm2·V-1·s-1提高到4.65×10-3cm2·V-1·s-1。UPS测试结果表明,薄层EuF3在Ag与有机半导体间形成了界面偶极势垒,使源漏电极表面功函数增大,空穴注入势垒降低,Ag电极与有机半导体层界面的接触电阻减小,进而提升了空穴的注入效率。     

高效率的有机电致发光器件

有机电致发光器件 (OL EDs)的发光机理包括电子和空穴从电极的注入、激子的形成及复合发光 ,其中 ,空穴和电子的注入平衡是非常重要的。为了平衡载流子的注入以得到高效率和稳定性好的器件 ,人们不仅使用了电子注入更为有效的 L i F/ Al[1] 和 Cs F/ Al[2 ] 等复合电极 ,同时也使用了空穴缓冲层 ,如 S.A.Van Slyke等 [3]在ITO和 NPB之间使用 Cu Pc,使得器件的稳定性得到了明显的提高 ;A.Gyoutoku等[4 ] 用碳膜使器件的半寿命超过 3 5 0 0小时 ;最近 ,Y.Kurosaka等 [5]和 Z.B.Deng[6 ]分别在 ITO和空穴传输层之间插入一薄层 Al…     

SiGe电荷注入晶体管的直流特性模型

为了能直观地体现SiGe/Si电荷注入晶体管的收集极电流与漏源电压的关系，利用输入端SiGe/Si量子阱中二维空穴气的隧道模型，建立起此类器件的输入输出数学模型，并利用MATLAB软件对所建模型进行了模拟，结果显示在漏源电压约为1.5 V时，漏电流出现较强的负微分电阻效应，与文献报道结果符合. 关键词： SiGe/Si异质结 电荷注入晶体管 二维空穴气 隧道效应     

基于垂直结构的有机光发射晶体管制备与性能研究

制备了一种有机垂直光发射晶体管, 兼具有机发光二极管的发光和晶体管的开关调节两个功能.其结构为一个有机发光单元垂直堆叠在一个电容单元上,两单元通过一个共有的源电极连在一起.当电容单元被充电时,积累在源电极的电荷能有效地调节源极与有机层之间的载流子注入势垒,从而达到控制源漏输出电流的大小,最终控制发光单元发光的强度.实验结果表明,器件可提供02 mA的输出电流,其大小可驱动发光单元发光,工作电压（开启电压）为6 V.这种垂直集成方案,实现了器件多功能化,为有机发光二极管有源矩阵驱动的实际应用提供了一种新的解决方法. 关键词： 有机光发射晶体管 垂直 电容     

Enhanced charge carrier injection in heterojunction organic field-effect transistor by inserting an MoO3 buffer layer

A top-contact organic field-effect transistor(OFET) is fabricated by adopting a pentacene/1,1’-bis(di-4tolylaminophenyl) cyclohexane(TAPC) heterojunction structure and inserting an MoO3 buffer layer between the TAPC organic semiconductor layer and the source/drain electrode.The performances of the heterojunction OFET,including output current,field-effect mobility,and threshed voltage,are all significantly improved by introducing the MoO3 thin buffer layer.The performance improvement of the modified heterojunction OFET is attributed to a better contact formed at the Au/TAPC interface due to the MoO3 thin buffer layer,thereby leading to a remarkable reduction of the contact resistance at the metal/organic interface.     

电极肖特基接触对有机光敏晶体管性能的影响

有机光敏晶体管是一种在有机场效应管结构中引入光控“栅极”的新型光探测器件,其光灵敏度、光响应度性能参数与源/漏电极和有源层的接触情况关系密切。本文通过真空蒸发法分别制备了采用金电极和铝电极的单层并五苯及酞菁铜有机光敏晶体管。研究了它们在黑暗和光照条件下的输出及转移特性。结果表明,高迁移率的并五苯有源层更适合搭配接触特性较好的金电极,该器件具有和铝电极器件相同高水平的光灵敏度~3×104,但其光响应度是铝电极器件的13倍;而低迁移率的酞菁铜薄膜较适合搭配能够和有源层形成肖特基接触的铝电极,有利于抑制暗电流、增强激子解离效率、提高光电流,进一步使器件在获得和金电极器件同数量级光响应度的同时,其光灵敏度是金电极器件的102倍。本文对光照下电极/有源层肖特基接触的能带变化做了理论分析,总结归纳了有机光敏晶体管电极材料和有源层材料的初步筛选规律。     

Research on the electrical characteristics of an organic thin-film field-effect transistor based on alternating-current resistance

In this article, an organic thin-film field-effect transistor (OTFFET) with top-gate and bottom-contact geometry based on pentacene as the active layer is fabricated. The experimental data of the I-V are obtained from the OTFFET device. The alternating-current (AC) resistance value of the OTFFET device is calculated using the derivation method from the experimental data, and the AC resistance trend curves of the OTFFET device are obtained with the region fitting method. We analyse the characteristics of the OTFFET device with an AC resistance trend curve. To discover whether it has a high resistance, it is proposed to judge the region of the source/drain voltage (V_DS) less than the transition voltage, thereby determining whether the contact between the metal electrode and the organic semiconductor layer of the OTFFET device is Ohmic or non-Ohmic. The theoretical analysis shows that the field-effect mobility and the AC resistance are in reverse proportion. Therefore, we point out that reducing AC resistance is necessary if field-effect mobility is to be improved.     

Room-temperature tunnel magnetoresistance and spin-polarized tunneling through an organic semiconductor barrier

Electron spin-polarized tunneling is observed through an ultrathin layer of the molecular organic semiconductor tris(8-hydroxyquinolinato)aluminum (Alq3). Significant tunnel magnetoresistance (TMR) was measured in a Co/Al2O3/Alq3/NiFe magnetic tunnel junction at room temperature, which increased when cooled to low temperatures. Tunneling characteristics, such as the current-voltage behavior and temperature and bias dependence of the TMR, show the good quality of the organic tunnel barrier. Spin polarization (P) of the tunnel current through the Alq3 layer, directly measured using superconducting Al as the spin detector, shows that minimizing formation of an interfacial dipole layer between the metal electrode and organic barrier significantly improves spin transport.     

Hole Injection Enhancement of MoO_3/NPB/Al Composite Anode

An ultra-thin molybdenum(VI) oxide(MoO_3) modification layer can significantly improve hole injection from an electrode even though the MoO_3 layer does not contact the electrode. We find that as the thickness of the organic layer between MoO_3 and the electrode increases, the hole injection first increases and it then decreases.The optimum thickness of 5 nm corresponds to the best current improvement 70%, higher than that in the device where MoO_3 directly contacts the Al electrode. According to the 4,4-bis[N-(1-naphthyl)-N-phenyl-amino] biphenyl(NPB)/MoO_3 interface charge transfer mechanism and the present experimental results, we propose a mechanism that mobile carriers generated at the interface and accumulated inside the device change the distribution of electric field inside the device, resulting in an increase of the probability of hole tunneling through the injection barrier from the electrode, which also explains the phenomenon of hole injection enhanced by MoO_3/NPB/Al composite anode. Based on this mechanism, different organic materials other than NPB were applied to form the composite electrode with MoO_3. Similar current enhancement effects are also observed.     

背入射Au/ZnO/Al结构肖特基紫外探测器

设计制作了一种Au/ZnO/Al结构的紫外探测器,光的入射方式采用背入射式。ZnO薄膜是用磁控溅射在蓝宝石衬底上制备的。I-V测试表明:Au与ZnO形成了肖特基接触。得到探测器的光响应峰值在352nm,截止边为382nm,可见抑制比达一个量级。由于该探测器是一种垂直结构器件,对于进一步实现ZnO紫外探测器阵列及单光子探测有很好的研究价值。     

Performance improvement in pentacene organic thin film transistors by inserting a C60 ultrathin layer

The contact effect on the performances of organic thin film transistors is studied here. A C₆₀ ultrathin layer is inserted between Al source--drain electrode and pentacene to reduce the contact resistance. By a 3 nm C₆₀ modification, the injection barrier is lowered and the contact resistance is reduced. Thus, the field-effect mobility increases from 0.12 to 0.52 cm²/(V·s). It means that inserting a C₆₀ ultra thin layer is a good method to improve the organic thin film transistor (OTFT) performance. The output curve is simulated by using a charge drift model. Considering the contact effect, the field effect mobility is improved to 1.15 cm²/(V·s). It indicates that further reducing the contact resistance of OTFTs should be carried out.     

A high mobility C60 field-effect transistor with an ultrathin pentacene passivation layer and bathophenanthroline/metal bilayer electrodes

C₆₀ field-effect transistor (OFET) with a mobility as high as 5.17 cm²/V·s is fabricated. In our experiment, an ultrathin pentacene passivation layer on poly-(methyl methacrylate) (PMMA) insulator and a bathophenanthroline (Bphen)/Ag bilayer electrode are prepared. The OFET shows a significant enhancement of electron mobility compared with the corresponding device with a single PMMA insultor and an Ag electrode. By analysing the C₆₀ film with atomic force microscopy and X-ray diffraction techniques, it is shown that the pentacene passivation layer can contribute to C₆₀ film growth with the large grain size and significantly improve crystallinity. Moreover, the Bphen buffer layer can reduce the electron contact barrier from Ag electrodes to C₆₀ film efficiently.     

Barrier height enhancement of metal/semiconductor contact by an enzyme biofilm interlayer

A metal/interlayer/semiconductor (Al/enzyme/p-Si) MIS device was fabricated using α-amylase enzyme as a thin biofilm interlayer. It was observed that the device showed an excellent rectifying behavior and the barrier height value of 0.78?eV for Al/α-amylase/p-Si was meaningfully larger than the one of 0.58?eV for conventional Al/p-Si metal/semiconductor (MS) contact. Enhancement of the interfacial potential barrier of Al/p-Si MS diode was realized using enzyme interlayer by influencing the space charge region of Si semiconductor. The electrical properties of the structure were executed by the help of current–voltage and capacitance–voltage measurements. The photovoltaic properties of the structure were executed under a solar simulator with AM1.5 global filter between 40 and 100?mW/cm² illumination conditions. It was also reported that the α-amylase enzyme produced from Bacillus licheniformis had a 3.65?eV band gap value obtained from optical method.