Ni/Ag/Ti/Au与p-GaN的欧姆接触性能及光反射率

研究了不同Ni厚度的Ni/Ag/Ti/Au电极在不同退火温度和退火气氛下与p-GaN之间的欧姆接触性能以及电极的光反射率的变化.采用矩形传输线模型对各电极的比接触电阻率进行测算,利用分光光度计对电极在不同波长下的反射率进行测量.结果表明,Ni金属层的厚度越小,电极的光反射率越高,而Ni层厚度对比接触电阻率的影响较小;当退火温度高于400℃后,电极的光反射率降低,在氧气氛围中退火后光反射率比在氮气中退火后下降更加明显.但在氧气氛围中退火有利于减小比接触电阻率.综合考虑接触电阻和光反射率,电极Ni(1 nm)/Ag/Ti/Au在400℃氧气中快速退火后得到了较好的结果,其比接触电阻率为5.5×10-3Ω·cm2,在450 nm处反射率为85%.利用此电极制作了垂直结构发光二极管(LED)器件,LED在350 mA注入电流下,工作电压为3.2 V,发光功率为270 mW,电光转换效率达到24%.     

不同退火方式对Ni/SiC接触界面性质的影响

采用快速热退火(rapid thermal annealing, RTA)法和脉冲激光辐照退火(laser spark annealing, LSA)法, 在n型4H-SiC的Si面制备出Ni电极欧姆接触. 经传输线法测得RTA样品与LSA样品的比接触电阻分别为5.2×10^-4 Ω·cm², 1.8× 10^-4 Ω·cm². 使用扫描电子显微镜、原子力显微镜、透射电子显微镜、拉曼光谱等表征手段, 比较了两种退火方式对电极表面形貌、电极/衬底截面形貌和元素成分分布、SiC衬底近表层碳团簇微结构的影响. 结果表明, 相比于RTA, LSA法制备出的欧姆接触在电极表面形貌、界面形貌、电极层组分均匀性等方面都具有明显优势, 有望使LSA成为一种非常有潜力的制备欧姆接触的退火处理方法.     

热退火处理对AuGeNi/n-AlGaInP欧姆接触性能的影响

本文在n-(Al0.27Ga0.73)0.5In0.5P表面通过电子束蒸发Ni/Au/Ge/Ni/Au叠层金属并优化退火工艺成功制备了具有较低接触电阻的欧姆接触,其比接触电阻率在445℃退火600 s时达到1.4×10–4 W·cm2.二次离子质谱仪测试表明,叠层金属Ni/Au/Ge/Ni/Au与n-AlGaInP界面发生固相反应,Ga,In原子由于热分解发生外扩散并在晶格中留下Ⅲ族空位.本文把欧姆接触形成的原因归结为Ge原子内扩散占据Ga空位和In空位作为施主提高N型掺杂浓度.优化退火工艺对低掺杂浓度n-(Al0.27Ga0.73)0.5In0.5P的欧姆接触性能有显著改善效果,但随着n-(Al0.27Ga0.73)0.5In0.5P掺杂浓度提高,比接触电阻率与退火工艺没有明显关系.本文为n面出光的AlGaInP薄膜发光二极管芯片的n电极制备提供了一种新的方法,有望大幅简化制备工艺,降低制造成本.     

低接触电阻率Ni/Ag/Ti/Au反射镜电极的研究

研究了Ag的厚度、退火时间、沉积温度对于Ni/Ag/Ti/Au电极的反射率及与p-GaN欧姆接触性能的影响. 利用分光光度计测量反射率, 采用圆形传输线模型计算比接触电阻率. 结果表明: 随着Ag厚度的增加, Ni/Ag/Ti/Au电极的反射率逐渐增大; 在氧气氛围中, 随着退火时间从1 min增至10 min, 300 ℃退火时, 比接触电阻率持续下降, 而对于400-600 ℃退火, 比接触电阻率先减小后增大; 在300和400 ℃氧气中进行1-10 min 的退火后, Ni/Ag/Ti/Au的反射率变化较小, 退火温度高于400 ℃时, 随着退火时间的增加, 反射率急剧下降; 在400 ℃氧气中3 min退火后, 比接触电阻率可以达到3.6×10^-3 Ω·cm². 此外, 适当提高沉积温度可以增加Ni/Ag/Ti/Au的反射率并降低比接触电阻率, 沉积温度为120 ℃条件下的Ni/Ag/Ti/Au电极在450 nm处反射率达到90.1%, 比接触电阻率为6.4×10^-3 Ω·cm². 综合考虑电学和光学性能, 在沉积温度为120 ℃下蒸镀Ni/Ag/Ti/Au (1/200/100/100 nm)并在400 ℃氧气中进行3 min退火可以得到较优化的电极. 利用此电极制作的垂直结构发光二极管在350 mA电流下的工作电压为2.95 V, 输出光功率为387.1 mW, 电光转换效率达到37.5%.     

Ni/Au与N掺杂p型ZnO的欧姆接触

研究了Au,In,Ni/Au三种不同金属膜与N掺杂p型ZnO的接触特性,发现Ni/Au双层膜更适合作为其欧姆电极材料,并比较了不同气氛和不同温度退火对Ni/Au电极的影响.发现在O₂中退火电极性能发生蜕变,而在N₂中退火性能得到改善.指出即使在N₂中退火,退火温度的选择也是至关重要的,本实验在400℃,氮气气氛下退火150s,得到了较好的欧姆接触特性.     

欧姆接触中接触电阻率的计算

从欧姆接触电阻率的定义出发,先从理论上介绍了热离子发射、热离子场发射和场发射三种不同情况下欧姆接触电阻率的计算公式,然后详细地从实验上综合各种测试方法,并讨论了其利弊．     

空气和氧气气氛下p-GaN/Ni/Au合金性质

研究了p-CaN上的Au／Ni双金属层在空气气氛和氧气气氛下合金对其欧姆接触性质的影响。使用同步辐射高强度X射线衍射观察到明显的NiO衍射峰。随着合金时间的增加,NiO和Au的结晶性均明显变好,NiO的衍射峰强度随合金时间的增加而增强,同时发现Au(111)沿CaN的(0001)面择优形成单晶。测得Ni／Au-p-CaN-Ni／Au串联电阻在合金后明显降低,表明接触性质改善与结晶性的提高有关。同时发现氧气下合金比空气下合金形成NiO更快,相应的串联电阻也更快地下降。     

高反射率p-GaN欧姆接触电极

根据光学薄膜原理计算了GaN/Ti/Ag、GaN/Al和GaN/Ni/Au/Ti/Ag、GaN/Ni/Au/Al多层电极结构的反射率,得出Ag基和Al基反射电极均能在全角范围内提供较高的反射率。实验测量结果表明,反射率能高于80%的Ag基反射电极,具有低欧姆接触的电学特性。并将GaN/Ni/Au/Ti/Ag多层反射电极应用在上下电极结构的GaN基LED中。实验上采用两步合金法获得了低接触电阻、高反射率的电极结构,并引入Ni/Au覆盖层克服了Ag高温时的团聚和氧化现象。解决了Ag电极的稳定性问题,显著地提高了LED的出光效率,成功制备了具有上下电极结构的GaN基LED管芯。     

氧气氛中p-GaN/Ni/Au电极在相同温度不同合金时间下的欧姆接触形成机制和扩散行为

用卢瑟福背散射/沟道技术研究了p-GaN上的Ni/Au电极在氧气氛下相同合金温度(500℃)不同合金时间后的微结构演化,以揭示欧姆接触的形成机制.利用背散射随机谱和RUMP模拟程序研究了电极金属之间的互扩散,用沟道谱探测了电极金属中的氧分布.结合不同合金时间下比接触电阻ρ_c的变化,发现随着合金时间的延长比接触电阻持续降低,在合金时间60 s后降低的速度减慢, Au扩散到GaN的表面,在p-GaN上形成外延结构,O向电极内部扩散反应生成NiO对降低ρ_{关键词： GaN 卢瑟福背散射/沟道 欧姆接触}     

Pd/p-GaN欧姆接触退化机理

近几年,Ⅲ-Ⅴ族半导体GaN由于其宽直接带隙,在高温、高功率器件方面得到了广泛研究。但是,目前GaN器件的性能依然受到了p型欧姆接触性能不良的限制,在长期使用过程或高温环境中激光器等器件性能退化严重。因此,获得性能优异的p-GaN接触仍然是一个巨大的挑战。虽然Pd基的金属体系已然在p-GaN获得了欧姆接触,但是Pd与GaN接触之后的微观结构及其高温特性尚不为人知。本文针对常用于p型GaN接触的第一层金属Pd材料,讨论了Pd/p-GaN接触界面的特性和退化机制。通过四探针测试仪、X射线光电子能谱(XPS)和原子力显微镜(AFM)实验测试和分析对比,发现Pd/p-GaN界面受到氧气和温度影响的退化过程。高温退火在界面处促成Ga-Pd合金相生成利于形成良好的接触,但是在有氧参与的情况下,金属的氧化反应超越其他因素成为主导,致使界面和性能发生明显的退化。温度越高退化越严重,甚至表面形貌状态完全改变,由平滑的原子台阶形貌转化呈现出树枝状晶粒状态。因此,保持Pd与p-GaN界面清洁、控制界面的氧成分不仅是形成合金态获得良好接触的关键,而且也关系着器件的长期稳定和可靠,是防止器件性能衰减和退化要害所在。     

The effect of a surface layer capping p-InGaN/p-GaN superlattices on the contact to p-GaN

In this study, the influence of the surface layer (p-InGaN or p-GaN) capping p-InGaN/p-GaN superlattices (SLs) on the contact to p-type GaN was investigated. It was found that the specific contact resistance (_ρc)$\left({\rho }_c\right)$ to p-type GaN is lower when using p-InGaN as the surface layer. The lowest value of _ρc${\rho }_c$ was 1.99×10⁻⁴ Ω cm² at room temperature. It was also found that low temperature growth of the p-GaN layers in the SLs is beneficial for lowering the ohmic contact resistance. Unlike Ni/Au deposited directly on p-GaN (without the strained p-InGaN/p-GaN SLs), Ni/Au deposited on p-InGaN/p-GaN SLs produces ohmic behavior even before annealing.     

Influence of p-GaN annealing on the optical and electrical properties of InGaN/GaN MQW LEDs

Optical and electrical properties of InGaN/GaN multiple quantum wells (MQWs) light emitting diodes (LEDs) annealed in pure O₂ ambient (500 °C) and pure N₂ ambient (800 °C) were systematically investigated. The temperature-dependent photoluminescence measurements showed that high-temperature thermal annealing in N₂ ambient can induce indium clusters in InGaN MQWs. Although the deep traps induced by indium clusters can act as localized centers for carriers, there are many more dislocations out of the trap centers due to high-temperature annealing. As a result, the radiative efficiency of the sample annealed in N₂ ambient was lower than that annealed in O₂ ambient at room temperature. Electrical measurements demonstrated that the LEDs annealed in O₂ ambient were featured by a lower forward voltage and there was an increase of ~41% in wall-plug efficiency at 20 mA in comparison with the LEDs annealed in N₂ ambient. It is thus concluded that activation of the Mg-doped p-GaN layer should be carried out at a low-temperature O₂ ambient so as to obtain LEDs with better performance.     

N 掺杂ZnO薄膜的接触特性

氧化锌(ZnO)是一种直接带隙半导体材料,室温下带隙为3.37eV,激子束缚能为60meV。ZnO因其优越的光电特性在高亮度蓝紫光发光器件、紫外探测器件和短波长激子型激光器等方面具有广阔的应用前景。而要实现大功率的光电器件,稳定可靠的欧姆接触是必需的。研究了氮气氛条件下,不同温度快速退火对氮掺杂ZnO样品的电学性质以及Ni/Au与其接触特性的影响。原生样品表现为弱的肖特基接触,适当温度退火后,由肖特基转成了欧姆接触,650℃退火后得到最小比接触电阻率8×10-4Ω·cm2。霍尔测量表明550℃快速退火后,样品的导电类型由p型转变成了n型。采用AES和GXRD分别研究了不同退火温度下Au、Ni、Zn、O的深度分布变化及退火后所生成的合金相。实验结果表明,退火所导致的薄膜电学性质的变化以及界面态和表面态的增加是接触特性变化的原因。     

p-GaN/p-AlxGa1-xN异质结界面处二维空穴气的性质及其对欧姆接触的影响

通过自洽求解一维泊松方程和薛定谔方程,得到了p-GaN/p-Al_xGa_1-xN异质结界面处的价带结构和二维空穴气（2DHG）分布,研究了A1组分和压电极化效应对界面处2DHG性质的影响,给出了异质界面处2DHG的面密度、浓度分布以及价带结构.实验结果表明:随着Al组分的增加,异质结界面处势阱明显加深变窄,这使得2DHG的峰值密度加速上升,也使得面空穴密度近直线上升;压电极化效应也明显使界面处势阱加深变窄,并且使费米能级向势垒顶端移动,峰值浓度的位置向界面处移动;另外,价带带阶高度和受主杂质浓度对2DHG的影响较小.利用这层2DHG制作的p-Al_xGa_1-xN的欧姆接触,电流电压特性明显好于直接制作的电极,说明了2DHG可以显著改善p-Al_xGa_1-xN的欧姆接触性能.     

Thermal annealing behaviour of Al/Ni/Au multilayer on n-GaN Schottky contacts

Recently GaN-based high electron mobility transistors (HEMTs) have revealed the superior properties of a high breakdown field and high electron saturation velocity. Reduction of the gate leakage current is one of the key issues to be solved for their further improvement. This paper reports that an Al layer as thin as 3 nm was inserted between the conventional Ni/Au Schottky contact and n-GaN epilayers, and the Schottky behaviour of Al/Ni/Au contact was investigated under various annealing conditions by current--voltage (I--V) measurements. A non-linear fitting method was used to extract the contact parameters from the I--V characteristic curves. Experimental results indicate that reduction of the gate leakage current by as much as four orders of magnitude was successfully recorded by thermal annealing. And high quality Schottky contact with a barrier height of 0.875 eV and the lowest reverse-bias leakage current, respectively, can be obtained under 12 min annealing at 450°C in N₂ ambience.     

Low specific contact resistivity to graphene achieved by AuGe/Ni/Au and annealing process

Low metal-graphene contact resistance is important in making high-performance graphene devices.In this work,we demonstrate a lower specific contact resistivity of Au_(0.88)Ge_(0.12)/Ni/Au-graphene contact compared with Ti/Au and Ti/Pt/Au contacts.The rapid thermal annealing process was optimized to improve AuGe/Ni/Au contact resistance.Results reveal that both pre- and post-annealing processes are effective for reducing the contact resistance.The specific contact resistivity decreases from 2.5 × 10~(-4) to 7.8 × 10~(-5) Ω·cm~2 by pre-annealing at 300 ℃ for one hour,and continues to decrease to9.5 × 10~(-7) H·cm~2 after post-annealing at 490 ℃ for 60 seconds.These approaches provide reliable means of lowering contact resistance.     

High energy electron radiation effect on Ni/4H-SiC SBD and Ohmic contact

The Ni/4H-SiC Schottky barrier diodes (SBDs) and transfer length method (TLM) test patterns of Ni/4H-SiC Ohmic contacts were fabricated, and irradiated with 1~MeV electrons up to a dose of 3.43× 10¹⁴~e/cm^-2. After radiation, the forward currents of the SBDs at 2~V decreased by about 50%, and the reverse currents at -200~V increased by less than 30%. Schottky barrier height (φ _B ) of the Ni/4H-SiC SBD increased from 1.20~eV to 1.21~eV under 0~V irradiation bias, and decreased from 1.25~eV to 1.19~eV under -30~V irradiation bias. The degradation of φ _B could be explained by the variation of interface states of Schottky contacts. The on-state resistance (R_s) and the reverse current increased with the dose, which can be ascribed to the radiation defects in bulk material. The specific contact resistance (\rho_c) of the Ni/SiC Ohmic contact increased from 5.11× 10⁵~Ωega.cm² to 2.97× 10^-4~Ωega.cm².     

Structural characterization of V/Al/V/Au Ohmic contacts to n-type Al0.4Ga0.6N

This paper investigates the temperature dependence of the specific resistance in annealed V/Al/V/Au (15 nm/85 nm/20 nm/95 nm) contacts on n-Al0.4Ga0.6 N. Contacts annealed at 700C and higher temperatures show Ohmic behaviour. Annealing at 800 C produces the lowest contact resistance. Samples annealed at 800C have been analysed by using cross-sectional transmission electron microscopy and an energy dispersive x-ray spectrum. Limited reaction depths are observed between V-based contacts and n-AlGaN. The VN grains are found to form in the contact layer of the annealed samples,which can be considered as the key to the successful formation of Ohmic contact. The contact layer adjacent to AlGaN material consists of V-Al-Au-N,AlN and AlAu alloys.