Al2O3陶瓷和Al2O3微粉

叙述了氧化铝瓷的重要性和氧化铝微粉的组成、性能和应用，指出了陶瓷质量和一次晶粒的关系。     

电子束辐照诱发的Al2Ni3相析出

实验室制备的Cu-11.2(wt)%Al-2.9(wt)%Ni合金试样经900℃24小时均匀化处理后,切成1～2mm厚的试片在氩气保护下加热到900℃保持30分钟并淬入冰盐水中,砂纸磨薄、再用离子减薄制成TEM试样。新鲜的试样区为片条状马氏体组织,具有9R长周期结构,片内观察到有序畴和大量层错,电子衍射谱呈现出明锐而清晰的单晶或孪晶斑点衍射花样。     

原位XPS分析Al2O3作为势垒层的Er2O3/Si结构

在超高真空条件下,通过脉冲激光沉积(PLD)技术制作了Er2O3/Al2O3/Si多层薄膜结构,原位条件下利用X射线光电子能谱(XPS)研究了Al2O3作为势垒层的Er2O3与Si界面的电子结构.XPS结果表明,Al2O3中Al的2p芯能级峰在低、高温退火前后没有变化;Er的4d芯能级峰来自于硅酸铒中的铒,并非全是本征氧化铒薄膜中的铒;衬底硅的芯能级峰在沉积Al2O 3时没有变化,说明Al2O3薄膜从沉积到退火不参与任何反应,与Si界面很稳定;在沉积Er2O3薄膜和退火过程中,有硅化物生成,表明Er2O3与Si的界面不太稳定,但随着Al2O3薄膜厚度的增加,其硅化物中硅的峰强减弱,含量减少,说明势垒层很好地起到了阻挡扩散的作用.     

原子层沉积氧化铝薄膜对多晶太阳能电池表面钝化的影响

A stack of Al2O3/SiNx dual layer was applied for the back side surface passivation of p-type multi-crystalline silicon solar cells, with laser-opened line metal contacts, forming a local aluminum back surface field （local Al-BSF） structure. A slight amount of Al2O3, wrapping around to the front side of the wafer during the thermal atomic layer deposition process, was found to have a negative influence on cell performance. The different process flow was found to lead to a different cell performance, because of the Al2O3 wrapping around the front surface. The best cell performance, with an absolute efficiency gain of about 0.6% compared with the normal full Al-BSF structure solar cell, was achieved when the Al2O3 layer was deposited after the front surface of the wafer had been covered by a SiNx layer. We discuss the possible reasons for this phenomenon, and propose three explanations as the Ag paste, being hindered from firing through the front passivation layer, degraded the SiNx passivation effect and the Al2O3 induced an inversion effect on the front surface. Characterization methods like internal quantum efficiency and contact resistance scanning were used to assist our understanding of the underlying mechanisms.     

电子束共蒸发Al2O3-La2O3和ZrO2-Ta2O5复合薄膜的介电性能研究

Al2O3、ZrO2、Ta2O5和La2O3薄膜在栅介质、无机EL介质和光学薄膜方面有着重要用途,但对其复合薄膜介电性能方面的研究很少。文章采用电子束共蒸发法制备了厚度分别为414nm和143nm的Al2O3-La2O3（ALO）和ZrO2-Ta2O5（ZTO）复合薄膜,用Sawyer—Tower电路测得介电常数分别为17和34,反映介电损耗的参数△Vy分别为0．013V和0．56V,击穿场强分别为128MV／m和175MV／m,在50MV／m场强下,ALO的正、反向漏电流密度分别为3．1×10-5／cm2和4．1×10-5A／cm2,ZTO的正、反向漏电流密度分别为3．9×10-5／cm2和3．7×10-5A／cm2。另外,实验还与电子束蒸发和反应溅射制备的Al2O3、ZrO2、Ta2O5的介电性能做了比较,结果表明,上述复合薄膜单独作为无机EL绝缘层是不合适的。     

纳米Al／Al2O3多层膜的光电子谱与电性能

用热蒸发和自然氧化法制备纳米量级Al／Al2O3多层膜，检测XPS光电子能谱和UPS谱线，得到Ei(ki)关系曲线，并发现薄膜具有负阻特性。     

原子层沉积LiPON薄膜的表面钝化研究

LiPON是一种重要的固态电解质,然而LiPON薄膜会与空气中的水和CO2发生反应产生Li2CO3,导致器件的电学性能变差.本工作利用X射线光电子能谱研究了通过原子层沉积(ALD)技术生长Al2O3薄膜来钝化LiPON薄膜,并且对比了多种方案:在ALD生长Al2O3薄膜之前对样品表面不做预处理,利用O3作为生长Al2O...     

基于SiC基底的Y2O3/Al2O3堆栈MOS 电容的特性研究

通过在n型碳化硅(SiC)晶圆上用物理气相沉积法(PVD)和原子层沉积法(ALD)分别沉积 Y2O3介质和Al2O3，形成金属/Al2O3/Y2O3/SiC高k介质堆栈结构MOS电容，X射线光电子能谱(XPS)分析研究Al2O3/Y2O3堆栈结构氧化层介质之间以及氧化层与SiC晶圆之间的相互扩散和反应关系，研究不同金属电极MOS电容的C-V特性，Ni电极MOS电容具有良好的稳定性，对介质层的相对介电常数影响最小，Mg电极MOS电容的理想平带电压最小，同时氧化层陷阱密度最小，随着C-V测试频率的降低，氧化层电容Cox逐渐增加Al2O3/Y2O3介质层的相对介电常数逐渐增大，等效氧化层厚度(EOT)减小，平带电容电压减小。     

纳米Al/Al2O3多层膜的光电子谱与电性能

用热蒸发和自然氧化法制备纳米量级Al/Al2O3多层膜.检测XPS光电子能谱和UPS谱线,得到Ei(k∥I)关系曲线,并发现薄膜具有负阻特性.     

采用ALD Al2O3作为栅介质的薄势垒增强型AlGaN/GaN MIS-HEMT

本文报道了高性能的增强型（E-mode）氮化镓（GaN）基金属-绝缘体-半导体高电子迁移率晶体管（MIS-HEMT）,该器件势垒层为5-nm厚的铝镓氮（Al0.3Ga0.7N）,并采用氮化硅（SiN）钝化来控制二维电子气（2DEG）密度。与SiN钝化不同,采用原子层淀积（ALD）技术生长的氧化铝（Al2O3）不会增强异质结中的2DEG密度。刻蚀栅区的SiN介质可以耗尽沟道电子,之后采用ALD Al2O3作为栅介质,可以实现MIS结构。栅长为1 μm的E-mode MIS-HEMT具有657mA/mm的最大饱和电流（IDS）、187mS/mm的最大跨导（gm）和1V的阈值电压（Vth）。与相应的E-mode HEMT对比,由于Al2O3栅介质的引入,使器件的性能得到了很大的提升。本文对于同时实现高的Vth和IDS提供了很好的方法。     

Effects of surface passivation during atomic layer deposition of Al2O3 on In0.53Ga0.47As substrates

In this work we investigate the effect of different III-V surface passivation strategies during atomic layer deposition of Al₂O₃. X-ray photoelectron spectroscopy indicates that bare As-decapped and sulfur passivated In_0.53Ga_0.47As present residual oxides on the surface just before the beginning of the Al₂O₃ deposition while the insertion of a Ge interface passivation layer results in an almost oxide free Ge/III-V interface. The study of the initial growth regimes, by means of in situ spectroscopic ellipsometry, shows that the growth of Al₂O₃ on Ge leads to an enhanced initial growth accompanied by the formation of Ge-O-Al species thus affecting the final electrical properties of the stack. Alternatively, deposition on decapped and S-passivated In_0.53Ga_0.47As results in a more controlled growth process. The sulfur passivation leads to a better electrical response of the capacitor that can be associated to a lower oxide/semiconductor interface trap density.     

用于GaAs射频集成电路的不同厚度氧化铝MIM 电容的研究

本文研究了不同厚度的氧化铝对MIM电容直流和射频特性的影响。在1MHz下,对于20nm氧化铝MIM电容,其拥有3850 pF/mm₂的高电容密度和可接受的681 ppm/V₂的VCC-α电压系数。1MHz时突出的74 ppm/V₂VCC-α电压系数,8.2GHz谐振频率以及2GHz时41的Q值可以从100nm氧化铝MIM电容获得。采用GaAs工艺以及原子层淀积制造的高性能ALD氧化铝MIM电容很有可能成为GaAs射频集成电路很有前景的候选器件。     

插层Al2O3对氧化铪基忆阻器的性能优化及多值特性研究

近年来,氧化铪基忆阻器因其优异的阻变性能及与CMOS工艺兼容等特点而被广泛研究。然而,氧化铪基忆阻器仍存在以下问题:1) 器件良率、可靠性、均一性不足;2) Set和Reset 过程中电流突变,导致多值特性较差。为实现氧化铪基忆阻器的性能优化及多值特性,文章在HfO₂表面生长一层1~5 nm Al₂O₃,构造Al₂O₃/HfO₂双介质层忆阻器,并对HfO₂和Al₂O₃的厚度进行优化,最终得到性能显著提升的Al₂O₃/HfO₂双介质层多值忆阻器。该器件呈现出保持性良好的10个不同电阻态(1×10⁴ s@85℃)。由于氧离子在Al₂O₃层的迁移率更低,限制了氧空位细丝生长速率及宽度,且Al₂O₃具有热增强作用,使氧空位分布更均匀,促使氧空位细丝生成/断裂过程由突变转为渐变。该工作为进一步实现氧化铪基忆阻器的性能优化及多值特性提供了参考。     

Comparative study of AlGaN/GaN metal-oxide-semiconductor heterostructure field-effect transistors with Al2O3 and HfO2 gate oxide

AlGaN/GaN metal-oxide-semiconductor heterostructure field-effect transistors (MOSHFETs) with Al₂O₃ gate oxide which was deposited by atomic layer deposition (ALD) were fabricated and their performance was then compared with that of AlGaN/GaN MOSHFETs with HfO₂ gate oxide. The capacitance (C)-voltage (V) curve of the Al₂O₃/GaN MOS diodes showed a lower hysteresis and lower interface state density than the C-V curve of the HfO₂/GaN diodes, indicating better quality of the Al₂O₃/GaN interface. The saturation of drain current in the I_D-V_GS relation of the Al₂O₃ AlGaN/GaN MOSHFETs was not as pronounced as that of the HfO₂ AlGaN/GaN MOSHFETs. The gate leakage current of the Al₂O₃ MOSHFET was five to eight orders of magnitude smaller than that of the HfO₂ MOSHFETs.     

Atomic-layer-deposited Al2O3 and HfO2 on GaN: A comparative study on interfaces and electrical characteristics

Al₂O₃, HfO₂, and composite HfO₂/Al₂O₃ films were deposited on n-type GaN using atomic layer deposition (ALD). The interfacial layer of GaON and HfON was observed between HfO₂ and GaN, whereas the absence of an interfacial layer at Al₂O₃/GaN was confirmed using X-ray photoelectron spectroscopy and transmission electron microscopy. The dielectric constants of Al₂O₃, HfO₂, and composite HfO₂/Al₂O₃ calculated from the C-V measurement are 9, 16.5, and 13.8, respectively. The Al₂O₃ employed as a template in the composite structure has suppressed the interfacial layer formation during the subsequent ALD-HfO₂ and effectively reduced the gate leakage current. While the dielectric constant of the composite HfO₂/Al₂O₃ film is lower than that of HfO₂, the composite structure provides sharp oxide/GaN interface without interfacial layer, leading to better electrical properties.     

不同深宽比GaAs衬底的Al22O3/HfO2复合薄膜材料原子层沉积及能谱分析

利用热原子层沉积（Atomic Layer Deposition, ALD）技术在不同深宽比GaAs衬底上进行了Al2₂O₃/HfO₂复合薄膜的沉积。通过对其表面和能谱进行分析发现,沉积温度对复合薄膜的摩尔比具有较大的影响。随着深宽比的增大,其沉积表面和沟槽内会出现残留物;随着ALD沉积温度的上升,其沉积表面和沟槽内的残留物减少,摩尔比趋向均匀。当深宽比为2.2并利用150 ℃的低沉积温度时,表面及底面基本无残留物。但当深宽比为4.25时,150 ℃沉积明显有大量残留物。只有当温度升高到300 ℃时,表面和沟槽里复合薄膜的残留物才被明显消除。ALD技术可以实现各种器件结构的全方位钝化,这是其他化学气相沉积法无法比拟的。     

基于MIS电容器的Al2O3与In0.74Al0.26As的界面特性

采用In_0.74Al_0.26As/In_0.74Ga_0.26As/In_xAl_1-xAs异质结构多层半导体作为半导体层,制备了金属-绝缘体-半导体（MIS）电容器。其中,SiN_x和SiN_x/Al₂O₃分别作为MIS电容器的绝缘层。高分辨率透射电子显微镜和X射线光电子能谱的测试结果表明,与通过电感耦合等离子体化学气相沉积生长的SiN_x相比,通过原子层沉积生长的Al2_O3可以有效地抑制Al₂O₃和In_0.74Al_0.26As界面的In₂O₃的含量。根据MIS电容器的电容-电压测量结果,计算得到SiN_x/Al₂O₃/In...     

Excellent performance of gas sensor based on In2O3-Fe2O3 nanotubes

In₂O₃-Fe₂O₃ nanotubes are synthesized by an electrospinning method. The as-synthesized materials are characterized by scanning electron microscope and X-ray powder diffraction. The gas sensing results show that In₂O₃-Fe₂O₃ nanotubes exhibit excellent sensing properties to acetone and formaldehyde at different operating temperatures. The responses of gas sensors based on In₂O₃-Fe₂O₃ nanotubes to 100 ppm acetone and 100 ppm formaldehyde are 25 (240℃) and 15 (260℃), and the response/recovery times are 3/7 s and 4/7 s, respectively. The responses of In₂O₃-Fe₂O₃ nanotubes to 1 ppm acetone (240℃) and formaldehyde (260℃) are 3.5 and 1.8, respectively. Moreover, the gas sensor based on In₂O₃-Fe₂O₃ nanotubes also possesses an excellent selectivity to acetone and formaldehyde.