稀土及过渡金属离子Fe(III)、Zn(II)、Cd(II）的协同萃取研究

自从1956年Blake等研究HDEHP萃取铀时发现协同效应以来，由于协同萃取具有可以显著地提高萃取效率，改变萃取选择性等优点，所以对协同萃取进行了大量研究工作，目前已广泛应用于核燃料稀有金属湿法冶金分离分析。但协同萃取研究领域十分广阔，新协萃体系，协萃机理和协萃配合物结构等许多方面还有待进一步研究。Fe~(3+)、Zn~(2+)和Cd~(2+)等过渡金属离子常与稀土离子在一起，成为高纯稀土产品的重要杂质元素，因此寻找Fe(III)、Zn(II)和Cd(II)与RE（III）的新协同萃取分离体系，不但具有理论意义，也有实际意义。本文研究了萃取分离中广泛使用的四种萑取剂，甲基膦酸二（1-甲基庚基）酯（P_(350), 以B表示）、仲碳伯胺N_(1923)(以RNH_2表示）、1-苯基-3-甲基-4-苯甲酰基吡唑酮-5（PMBP，以HL表示）和2-乙基基膦酸单（2-乙基已基）酯（P_(507)，以HA表示）对盐酸介质中Fe(III)、Zn(II)、Cd(II)和Nd(III)等金属离子的协同萃取，得到了六个新协萃体系，并且对协萃机理和萃取平稀奇规律等进行了研究，得到了一些有意义的结果。

H[DEHP]从不同介质中萃取稀土（III）(Sc、Y、Ho、Er、Yb、Lu)及Fe(III)、Zn(II)的机理

本文分另研究了H[DEHP]从不同酸性介质中萃取稀土（III）(Sc、Y、Ho、Er、yb、Lu)及Fe(III)、Zn(II)的机理及性能。一、H[DEHP]从 H_2SO_4介质中萃取Sc(III)的机理 1. H[DEHP]萃取H_2SO_4及其机理 2. H[DEHP]萃取Sc(III)的机理，用斜率法和饱和法确定了H[DEHP]的正庚烷溶液从H_2SO_4溶液中萃取Sc_2(SO_4)_3的机理及萃合物组成。研究表明，H[DEHP]萃取Sc(III)在高、低两种酸度范围内存在着两种不同的萃取机理。二、H[DEHP]从HCl介质中萃取Ln(III)和Fe(III)的性能及H[DEHP]萃取Ln(III)的机理研究了H[DEHP]的正庚烷溶液从HCl介质中萃取稀土（III）(Sc、Y、Ho、Er、Yb、Lu)和Fe(III)的性能，得出H[DEHP]在相同条件下萃取以上各金属离子的顺序是：Sc(III)>Fe(III)>Lu(III)>Yb(III)>Er(III)>Y(III)>Ho(III), 并计算了各金属离子之间的分离因素（β）。文中还讨论了Sc(III)、Fe(III)、Lu(III)之间的分离以及重稀土离子间的萃取分离，同时与相同实验条件下HEH[EHP]的萃取性能进行了比较，为新的萃取体系提供了一些参数。三、H[DEHP]从不同介质中萃取Fe(III)的机理，研究了H[DEHP]的正率烷溶液从Hcl介质中和H[DEHP]的正庚烷溶液从H_2SO_4介质中萃取Fe(III)的平衡规律；用斜率法、饱和法以及IR和NMR谱等讨论了低酸度下的萃取机理。四、H[DEHP]萃取Zn(II)的机理，研究了H[DEHP]的正率烷溶液从Hcl介中萃取Zn(II)的平衡，利用斜率法、饱和法及SR、NMR谱等讨论了低Hcl浓度下的萃取机理。

LITHIUM PASSIVATION OF ZN AND CD ACCEPTORS IN P-TYPE GAAS

We report lithium passivation of the shallow acceptors Zn and Cd in p-type GaAs which we attribute to the formation of neutral Li-Zn and Li-Cd complexes. Similar to hydrogen, another group-I element, lithium strongly reduces the concentration of free holes when introduced into p-type GaAs. The passivation is inferred from an increase of both the hole mobility and the resisitivity throughout the bulk of the sample. It is observed most clearly for Li concentrations comparable to the shallow-acceptor concentration. In addition, compensation of shallow acceptors by randomly distributed donors is present in varying degree in the Li-diffused samples. Unlike hydrogenation of n-type GaAs, Li doping shows no evidence of neutralizing shallow donors in GaAs.

Zn杂质扩散诱导AlGaInP/GaInP量子阱混杂

杂质扩散诱导量子阱混杂技术可用于制作腔面非吸收窗口,提高大功率半导体激光器的输出功率。以Zn_3As_2为扩散源,采用闭管扩散方式,在550℃下对650nm半导体激光器的外延片进行了一系列Zn杂质扩散诱导量子阱混杂的实验。实验发现,随着扩散时间从20～120min,样品光致发光(PL)谱蓝移偏移增加,峰值波长蓝移53nm;当扩散时间超过60min后,样品的PL谱中不仅出现了常见的蓝移峰,同时还出现了红移峰,峰值波长红移32nm。分析表明PL谱蓝移来自Zn扩散引起的AlGaInP/GaInP间的量子阱混杂;红移来自Zn杂质扩散对样品中Ga_(0.51)In_(0.49)P缓冲层的影响。还研究了扩散温度(550℃)和扩散时间对样品晶体品质的影响,并在理论上计算了AlGaInP/GaInP量子阱混杂中的Al-Ga的互扩散系数。

Zn-doped InGaAs Base Heterojunction Bipolar Transistors Grown by Low Pressure Metal Organic Chemical Vapor Deposition

High performance InP/InGaAs heterojunction bipolar transistors(HBTs) have been widely used in high-speed electronic devices and optoelectronic integrated circuits. InP-based HBTs were fabricated by low pressure metal organic chemical vapor deposition(MOCVD) and wet chemical etching. The sub-collector and collector were grown at 655 ℃ and other layers at 550 ℃. To suppress the Zn out-diffusion in HBT, base layer was grown with a 16-minute growth interruption. Fabricated HBTs with emitter size of 2.5×20 μm~2 showed current gain of 70~90, breakdown voltage(BV_(CE0))>2 V, cut-off frequency(f_T) of 60 GHz and the maximum relaxation frequency(f_(MAX)) of 70 GHz.

High power red-light GaInP/AlGaInP laser diodes with nonabsorbing windows based on Zn diffusion-induced quantum well intermixing

The layer structure of GaInP/AlGaInP quantum well laser diodes (LDs) was grown on GaAs substrate using low-pressure metalorganic chemical vapor deposition (LP-MOCVD) technique. In order to improve the catastrophic optical damage (COD) level of devices, a nonabsorbing window (NAW), which was based on Zn diffusion-induced quantum well intermixing, was fabricated near the both ends of the cavities. Zn diffusions were respectively carried out at 480, 500, 520, 540, and 580 Celsius degree for 20 minutes. The largest energy blue shift of 189.1 meV was observed in the window regions at 580 Celsius degree. When the blue shift was 24.7 meV at 480 Celsius degree, the COD power for the window LD was 86.7% higher than the conventional LD.

Investigation on Fe, Mn, Zn, Cu, Pb and Cd fractions in the natural surface coatings sampled and surficial sediments collected in the Songhua River, China

Natural surface coatings sampled (NSCSs) from the surface of shingles and surficial sediments (SSs) in the Songhua River, China were employed to investigate the similarities and difference in fractions of heavy metals (Fe, Mn, Zn, Cu, Pb, and Cd) between NSCSs and SSs using the modified sequential extraction procedure (MSEP). The results show that the differences between NSCSs and SSs in Fe fractions were insignificant and Fe was dominantly present as residual phase (76.22% for NSCSs and 80.88% for SSs) and Fe-oxides phase (20.33% for NSCSs and 16.15% for SSs). Significant variation of Mn distribution patterns between NSCSs and SSs was observed with Mn in NSCSs mainly present in Mn-oxides phase (48.27%) and that in SSs present as residual phase (45.44%). Zn, Cu, Pb and Cd were found dominantly in residual fractions (>48%), and next in solid oxides/hydroxides for Zn, Pb and Cd and in easily oxidizable solids/compounds form for Cu, respectively. The heavy metal distribution pattern implied that Fe/Mn oxides both in NSCSs and SSs were more important sinks for binding and adsorption of Zn, Pb and Cd than organic matter (OM), and inversely, higher affinity of Cu to OM than Fe/Mn oxides in NSCSs and SSs was obtained. Meanwhile, it was found that the distributions of heavy metals in NSCSs and SSs were similar to each other and the pseudo-total concentrations of Zn, Cu, Pb and Cd in NSCSs were greater than those in SSs, highlighting the more importance for NSCSs than SSs in controlling behaviours of heavy metals in aquatic environments.

掺P、B对纳米Zn-O薄膜电学特性的影响

现在普遍采用ITO薄膜(In_2O_3:Sn)作为太阳电池的窗口材料，但由于In资源的稀缺，使太阳能电池的成本增加。Zn-O是一种低成本材料，具有良好的电学、光学特性，因此可代替ITO薄膜作为窗口材料。由于ZnO/n-Si异质结太阳电池的转化效率为6.9%～8.5%，而ITO光电转换效率为12%～15%，采用液态源掺杂方法，取得较好效果，证实了掺P、B对纳米ZnO薄膜提高导电性是有效的。本文利用扫描俄歇探针等手段研究分析了掺P、B随热处理温度的变化对纳米Zn-O薄膜电学特性的影响。在研制过程中，对掺入P、B的纳米Zn薄膜，曾采用X射线衍射议进行分析，其结果未见P、B。

Zn扩散工艺在降低VCSEL p型DBR串联电阻中的应用

于2010-11-23批量导入

Determination of the interdiffusion coefficients of liquid Zn and Sn using Ta/Zn-Sn/Si trilayers

In this paper we present a new method for measuring diffusion coefficients in liquid metals under convection-less conditions with solid/liquid-liquid/solid trilayer. The advantage of this kind of trilayer is that effects from gravity-induced convection and Marangoni-convection can be omitted, so that the diffusion coefficient is determined more accurately. The Ta/Zn-Sn/Si trilayer were prepared with a multi-target ion-beam sputtering deposition technique and annealed in an electric furnace under an argon atmosphere. The interdiffusion of liquid zinc and tin at 500 degrees degree C was investigated. The diffusion concentration profiles were determined by energy dispersive spectroscopy. The interdiffusion coefficients range from 1.0x10(-6)cm(2)/s to 2.8x10(-6)cm(2)/s, which is less than previous values measured by capillary reservoir technique under 1g-environment where various convection exist. The precise interdiffusion coefficients of liquid zinc and tin result from the removing of disturbances of various kinds of convection.

Cd、Pb、Cu、Zn和As在草甸棕壤中垂直迁移规律的研究

本文运用土柱淋溶试验，研究了不同条件下Cd、Pb、Cu、Zn和As等五种重金属元素在草甸棕壤中垂直迁移的规律。试验表明，一般情况下各重金属元素向下迁移的深度不超过10cm，绝大部分还是滞留在表层污染土中，因此在本试验条件下不会因淋溶迁移而导致地下水的污染。从不同重金属元素的迁移情况来看，Cd和Zn的迁移能力较强，Cu、Pb和As的迁移能力较弱。随着土壤pH值降低，Cd、Pb、Cu和Zn的迁移加强，As的迁移减弱。加大淋溶水量，能促进各种重金属离子随土壤水溶液的迁移。在供试浓度下，各重金属元素对水稻的生长没有危害，但对紫花苜蓿的生长却有影响，水稻籽实（或糙米）和紫花苜蓿茎叶中各重金属元素的含量都有增加，甚至超标。土壤施用石灰，能抑制各重金属元素在草甸棕壤中的迁移及被作物的吸收，是降低土壤重金属污染危害的一个有效措施。但是利用施加腐殖酸来防治土壤重金属污染往往会因造成土壤pH值下降、增加某些重金属的可溶性而遭失败。试验还表明，Cd、Pb、Cu和Zn的迁移在酸雨条件下会加剧，但As的迁移仅在弱酸性酸雨条件下增加，强酸性酸雨反而抑制As的迁移。