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。     

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%.     

牺牲Ni退火对硅衬底GaN基发光二极管p型接触影响的研究

本文通过在硅衬底发光二极管(LED)薄膜p-GaN表面蒸发不同厚度的Ni覆盖层,将其在N₂ ∶O₂=4 ∶1的气氛中、400℃—750℃的温度范围内进行退火,在去掉薄膜表面Ni覆盖层之后制备Pt/p-GaN欧姆接触层.实验结果表明:退火温度和Ni覆盖层厚度均对硅衬底GaN基LED薄膜p型欧姆接触有重要影响,Ni覆盖退火能够显著降低p型层中Mg受主的激活温度.经牺牲Ni退火后,p型比接触电阻率随退火温度的升高呈先变小后变大的规律,随Ni覆盖层厚度的增加呈先变小后变 关键词： 氮化镓 发光二极管 牺牲Ni退火 p型接触     

GaN HEMT欧姆接触模式对电学特性的影响

本文制备了AlGaN/GaN HEMT器件中常规结构与带有纵向接触孔结构的两种接触电极,研究了该两种源欧姆接触模式对器件电学特性的影响.在相同条件下进行快速退火,发现在750?C下退火30 s后,常规结构还没有形成欧姆接触,而带有纵向欧姆接触孔的接触电极与外延片已经形成了良好的欧姆接触.同时,比较了Ti/Al/Ti/Au和Ti/Al/Ni/Au电极退火后表面形态,Ti/Al/Ni/Au具有更好的表面形貌.通过测试两种结构的HEMT器件后,发现采用纵向欧姆接触孔结构器件具有更高的跨导和饱和电流,但是也会在栅极电压为0.5—2 V之间产生严重的电流崩塌现象.     

感应耦合等离子体刻蚀p-GaN的表面特性

研究了p-GaN材料经感应耦合等离子体(ICP)刻蚀后的表面特性,并用不同的方法对刻蚀表面进行处理.利用原子力显微镜(AFM)和X射线光电子能谱(XPS)对刻蚀样品进行分析,并在样品表面制作Ni/Au电极,进行欧姆接触特性的测试.实验结果表明了NaOH溶液处理表面对改善材料表面和欧姆接触特性是比较有效的. 关键词： GaN 感应耦合等离子刻蚀 表面处理 欧姆接触     

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%.     

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.     

等离子体表面处理对硅衬底GaN基蓝光发光二极管内置n型欧姆接触的影响

硅衬底GaN基发光二极管(LED)的内置n型欧姆接触在晶圆键合时的高温过程中常常退化,严重影响LED的工作电压等器件性能.本文深入研究了内置n电极蒸镀前对n-GaN表面的等离子体处理工艺对硅衬底GaN基发光二极管n型欧姆接触特性的影响.实验结果表明,1.1 mm×1.1 mm的LED芯片在350 m A电流下,n-GaN表面未做等离子体处理时,n电极为高反射率Cr/Al的芯片正向电压为3.43 V,比n电极为Cr的芯片正向电压高0.28 V.n-GaN表面经O2等离子体表面处理后,Cr/Al和Cr电极芯片的正向电压均有所降低,但Cr/Al电极芯片的正向电压仍比Cr电极芯片高0.14 V.n-GaN表面经Ar等离子体处理后,Cr/Al电极芯片正向电压降至Cr电极芯片的正向电压,均为2.92 V.利用X射线光电子能谱对Ar等离子体处理前后的n-GaN表面进行分析发现,Ar等离子体处理增加了n-GaN表面的N空位(施主)浓度,更多的N空位可以提高n型欧姆接触的热稳定性,缓解晶圆键合的高温过程对n型欧姆接触特性的破坏.同时还发现,经过Ar等离子体处理并用HCl清洗后,n-GaN表面的O原子含量略有增加,但其存在形式由以介电材料GaO_x为主转变为导电材料GaO_xN_(1-x)和介电材料GaO_x含量相当的状态,这会使得接触电阻进一步降低.上述两方面的变化均有利于降低LED芯片的正向电压.     

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}     

硅衬底GaN基LED N极性n型欧姆接触研究

在Si衬底GaN基垂直结构LED的N极性n型面上,利用电子束蒸发的方法制作了Ti/Al电极,通过了I-V曲线研究了有无AlN缓冲层对这种芯片欧姆接触的影响.结果显示,去除AlN缓冲层后的N极性n型面与Ti/Al电极在500到600 ℃范围内退火才能形成欧姆接触.而保留AlN缓冲层的N极性n型面与Ti/Al电极未退火时就表现为较好的欧姆接触,比接触电阻率为2×10^-5 Ω·cm²,即使退火温度升高至600 ℃,也始终保持着欧姆接触特性.因此,AlN缓冲层的存在是Si衬底GaN基垂直结构LED获得高热稳定性n型欧姆接触的关键. 关键词： 硅衬底 N极性 AlN缓冲层 欧姆接触     

Simulation on effect of metal/graphene hybrid transparent electrode on characteristics of GaN light emitting diodes

In order to decrease the Schottky barrier height and sheet resistance between graphene(Gr) and the p-GaN layers in GaN-based light-emitting diodes(LEDs), some transparent thin films with good conductivity and large work function are essential to insert into Gr and p-GaN layers. In this work, the ultra-thin films of four metals(silver(Ag), golden(Au), nickel(Ni), platinum(Pt)) are explored to introduce as a bridge layer into Gr and p-GaN, respectively. The effect of a different combination of Gr/metal transparent conductive layers(TCLs) on the electrical, optical, and thermal characteristics of LED was investigated by the finite element methods. It is found that both the TCLs transmittance and the surface temperature of the LED chip reduces with the increase of the metal thickness, and the transmittance decreases to about 80% with the metal thickness increasing to 2 nm. The surface temperature distribution, operation voltage, and optical output power of the LED chips with different metal/Gr combination were calculated and analyzed. Based on the electrical, optical, and thermal performance of LEDs, it is found that 1.5-nm Ag or Ni or Pt, but 1-nm Au combined with 3 layered(L) Gr is the optimal Gr/metal hybrid transparent and current spreading electrode for ultra-violet(UV) or near-UV LEDs.     

High reflective p-GaN/Ni/Ag/Ti/Au Ohmic contacts for flip-chip light-emitting diode (FCLED) applications

The fabrication of high reflective Ni/Ag/(Ti, Mo)/Au Ohmic contacts for flip-chip light-emitting diode (FCLED) are proposed and considered, Ni/Ag/Au Ohmic contacts are also fabricated to compare their resulting reflectivities. From secondary ion mass spectrometry (SIMS) depth profiles, it indicates that the Au in-diffusion occurs in Ni/Ag/Au contacts after annealing. It is considered that Au in-diffusion, which is intermixed with Ag, Ni and GaN in Ni/Ag/Au contacts after annealing, is responsible for the resulting low reflectance (63% at the wavelength of 465 nm). To avoid Au in-diffusion and enhance the reflectivity, a diffusion barrier metal (Ti or Mo) between Ni/Ag and Au is fabricated and examined. It is demonstrated and found that an insertion of diffusion barrier metal of Ti enables to block Au diffusion effectively and also improve the reflectivity significantly, up to 93%.     

GaInN light-emitting diodes with omnidirectional reflector using nanoporons SnO2 film

Enhancement of light extraction in a GaInN light-emitting diode(LED)employing an omni-directional reflector(ODR)consisting of GaN,SnO2 nanorod and an Ag layer was presented.The ODR comprises a transparent,quaxterwave layer of SnO2 nanorod claded by silver and serves as an ohmic contact to p-type were prepared by dip-coating technique.The average size of the spherical SnO2 particles obtained is 200 nm.The refractive index of the nanorod SnO2 film layer is 2.01.The GaInN LEDs with GaN/SnO2/Ag ODR show a lower forward voltage.This was attributed to the enhanced reflectivity of the ODR that employs the nanorod SnO2 film layer.Experimental results show that ODR-LEDs have lower optical losses and higher extraction efficiency as compared to conventional LEDs with Ni/Au contacts and conventional LEDs employing a distributed Bragg reflector(DBR).     

The reflectivity of Mo/Ag/Au ohmic contacts on p-type GaN for flip-chip light-emitting diode (FCLED) applications

The Mo/Ag/Au contact for flip-chip light-emitting diode (FCLED) applications is examined on its contact resistance and light reflectance. A high reflectance of 90% is achieved in un-annealed contact, but a strong inter-diffusion of ohmic metals and GaN during the annealing process is found to result in poor reflectance (55% at the wavelength of 465 nm). The secondary ion mass spectrometry (SIMS) depth profiles indicate that a wide inter-diffusion region existed in the annealed contacts; thus the low reflectivity of the Mo/Ag/Au-annealed contacts can be attributed to the strong inter-diffusion of Au and Ag.     

Study of Ti/Au,Ti/Al/Au,and Ti/Al/Ni/Au ohmic contacts to <Emphasis Type="Italic">n</Emphasis>-GaN

The contacts of Ti/Au, Ti/Al/Au, and Ti/Al/Ni/Au films deposited on n-GaN were studied by current–voltage (I–V) and transmission-line-method measurements. The effect of annealing temperature on specific contact resistivity has been investigated by changing the annealing temperature from 400 to 900 °C. Ti/Al/Au and Ti/Al/Ni/Au films were superior to the bilayer (Ti/Au) in ohmic contact characteristics and thermal stability. The Ti/Al/Ni/Au composite showed the best thermal stability due to the fact that Ni plays a more important role than the alloy of Ti/Al in preventing the interdiffusion of Ti, Al, and Au. The lowest contact resistivity (10^-7cm²) to n-GaN was obtained for the Ti/Al/Ni/Au sample by short-time/high-temperature annealing. The formation mechanism of ohmic contacts to n-GaN is also discussed. PACS 73.40.Cg; 73.61.Ey     

Auger electron spectroscopy of Au/NiOx contacts on p-GaN annealed in N2 and O2 + N2 ambients

We have designed a promising contact scheme to p-GaN. Au/NiO_x layers with a low concentration of O in NiO_x are deposited on p-GaN by reactive dc magnetron sputtering and annealed in N₂ and in a mixture of O₂ + N₂ to produce low resistivity ohmic contacts. Annealing has been studied of NiO_x layers with various contents of oxygen upon the electrical properties of Au/NiO_x/p-GaN. It has been found that the Au/NiO_x/p-GaN structure with a low content of oxygen in NiO_x layer provides a low resistivity ohmic contact even after subsequent annealing in N₂ or O₂ + N₂ ambient at 500 °C for 2 min.Auger depth profiles and transmission electron microscopy (TEM) micrographs reveal that while annealing in O₂ + N₂ ambient results in reconstruction of the initial deposited Au/NiO_x/p-GaN contact structure into a Au/p-NiO/p-GaN structure, annealing in N₂ brings about reconstruction into Au/p-NiO/p-GaN and Ni/p-NiO/p-GaN structures. Hence, in both cases, after annealing in N₂ as well as in O₂ + N₂ ambient, the ohmic properties of the contacts are determined by creation of a thin oxide layer (p-NiO) on the metal/p-GaN interface. Higher contact resistivities in the samples annealed in O₂ + N₂ ambient are most likely caused by a smaller effective area of the contact due to creation of voids.     

Proton radiation effects on optical constants of Al film reflector

The Al film reflectors can yield a high-reflectance over a broad wavelength region, and have been widely used in the spacecraft optical instruments for high quality optical applications. Under the irradiation of charged particles in the Earth radiation belt, the reflectors could be deteriorated. In order to reveal the deterioration mechanism, the change in optical constants of Al film reflector induced by proton radiation with 60\,keV was studied in an environment of vacuum with heat sink. Experimental results showed that when the radiation damage primarily occurs in the Al reflecting film, the extinction coefficient k will gradually decrease with increasing radiation fluence, which results in the decrease of the energies of reflective light. Therefore, the proton radiation induced an obvious degradation of spectral reflectance in the wavelength region from 200 to 800\,nm on the Al film reflector.     

金属薄膜电阻特性与厚度测量

考察不同沉积时间的金属铝与铜的薄膜的沉积态,电阻变化与厚度,厚度测量采用实验室光学干涉和透过率对比方法.金相显微与铝铜电阻变化的测量表明,不连续薄膜与连续过渡之间,电阻显著变化处不同.铝膜电阻随时间变化过程开始时存在波动状态.