以色列Kinneret湖多甲藻水华期间浮游植物的P-I曲线

淡水生态与生物技术国家重点实验室和以色列外交部技术交流会的特别资助;中国国家自然科学基金39770146

Stable multiplication gain in GaN p-i-n avalanche photodiodes with large device area

Visible-blind p-i-n avalanche photodiodes (APDs) were fabricated with high-quality GaN epilayers deposited on c-plane sapphire substrates by metal-organic chemical vapour deposition. Due to low dislocation density and a sophisticated device fabrication process, the dark current was as small as similar to 0.05 nA under reverse bias up to 20V for devices with a large diameter of 200 mu m, which was among the largest device area for GaN-based p-i-n APDs yet reported. When the reverse bias exceeded 38V the dark current increased sharply, exhibiting a bulk avalanche field-dominated stable breakdown without microplasma formation or sidewall breakdown. With ultraviolet illumination (360 nm) an avalanche multiplication gain of 57 was achieved.

I.茚基和环戊二烯基钕二氯化物-烷基铝二元体系催化丁二烯聚合反应动力学II.萘基钕及二环戊二烯基钕化合物的合成

本文研究所了四种钕化合物（茚基钕有机金属化合物C_9H_7NdCl_2·HCl·C_4H_8O，环戊二烯基钕有机金属化合物-C_5H_5NdCl_2·C_4H_8O，无水氯化钕络合物-NdCl_3·2C_4H_8O及NdCl_3·C_6H_5OH·C_4H_8O）与三异丁基铝（i-Ba_3Al）或一氢二异丁基铝（i-Bu_2AlH）所组成的二元催化体系中丁二烯聚合动力学。这些体系的动力学特点尚未被人们研究，通过实验揭示出一些新的规律，丰富了我们对稀土体系催化丁二烯聚合动力学的认识。研究中着重考察了聚合物活性链的变化条件，从而能较深刻地认识各体系的动力学特点，结果表明：C_9H_7NdCl_2·HCl·C_4H_8O，C_5H_5NdCl_2·C_4H_8O，NdCl_3·2C_4H_8O，NdCl_3·C_6H_5OH·C_4H_8O与i-Bu_2AlH所组成的二元催化体系中，当[Mo]=1.11克分子/升、[Nd]=1.12*10~(-4)克分子/升、[i-Bu_2AlH]\3.36*10~(-3)克分子/升、50 ℃聚合时为缓慢引发非稳态聚合反应。而当增加铝用量至[i-Bu_2AlH] = 6.72*10~(-3)克分子/升，C_9H_7NdCl_2·HCl·C_4H_8O体系转变为迅速引发稳态聚合反应，其余体系反应动力学行为无变化。各稀土钕催化体系动力学的差异主要是由配位体供电性不同产生的。当配位体供电性强时有利于降低稀土离子的正电荷，从而有利于烷基化反应和活性中心的形成和稳定，因此决定了各催化体系的不同动力学行为。C_9H_7NdCl_2·HCl·C_4H_8O体系当聚合温度、烷基铝浓度变化时以及Nd(naph)_3体系当温度变化时聚合物活性链状况会发生变化，从而改变了动力学行为。缓慢引发和迅速引发，稳态和非稳态间会发生转化而不是一成不变的。凝胶渗透色谱法应用于反应机理的研究不仅在理论上是可能的，在实践上是成功的。缓慢引发非稳态聚合（C_5H_5NdCl_2·C_4H_8O，NdCl_3·C_6H_5OH·C_4H_8O,NdCl_3·ZC_4H_8O），迅速引发非稳态聚合（Nd(naph)_3），迅速引发稳态聚合（C_9H_7NdCl_2·HCl·C_4H_8O）不同的动力学类型都具有不同的分子量分布特点。C_9H_7NdCl_2·HCl·C_4H_8O体系中丁二烯聚合速率方程为：K_p=K_p[C~*][M]. 50 ℃,[Nd]=1.12*10~(-4),[i-Bu_2AlH]=6.72*10~(-3)克分子/升条件下，丁二烯为快引发稳态聚合反应。此体系中活性中以浓度为2.43*10~(-6)克分子/升，催化剂有效利用率2%，链增长速率常数为81.42升/克分子，秒，聚合反应表观活化能为8.5±0.5千卡/克分子。聚合物顺-1，4结构均为98%左右。活性链平均寿命为7.22分钟。活性链对烷基铝的转移为主要链转移方式而对单体无明显转移。链转移速率常数为2.99升/克分子秒。

聚酰亚胺/无机物纳米杂化材料的研究 I 聚酰亚胺(HQDPA/DMMDA)-TiO_2纳米杂化物的合成与表征

将钛酸丁酯经乙酸修饰改性和稳定化后在杂化过程中用作TiO2前体，采用溶胶—凝胶法由可溶性聚酰亚胺(HQDPA/DMMDA)与经修饰改性的钛酸丁酯溶液混合， 进而制得聚酰亚胺TiO2杂化材料．XPS分析表明钛酸丁酯已转化成TiO2，TEM则显示TiO2以球状微粒均匀分散在聚酰亚胺基体中，粒径为30～60nm．含10%TiO2的杂化膜是具有高热稳定性与韧性的薄膜，其介电常数为3

Isolation, characterization and electron microscopic single particle analysis of the NADH : ubiquinone oxidoreductase (complex I) from the hyperthermophilic eubacterium Aquifex aeolicus

The proton-translocating NADH:ubiquinone oxidoreductase (complex I) has been purified from Aquifex aeolicus, a hyperthermophilic eubacterium of known genome sequence. The purified detergent solubilized enzyme is highly active above 50 degreesC. The specific activity for electron transfer from NADH to decylubiquinone is 29 U/mg at 80 degreesC. The A. aeolicus complex I is completely sensitive to rotenone and 2-n-decyl-quinazoline-4-yl-amine. SDS polyacrylamide gel electrophoresis shows that it may contain up to 14 subunits. N-terminal amino acid sequencing of the bands indicates the presence of a stable subcomplex, which is composed of subunits E, F, and G. The isolated complex is highly stable and active in a temperature range from 50 to 90 degreesC, with a half-life of about 10 h at 80 degreesC. The activity shows a linear Arrhenius plot at 50-85 degreesC with an activation energy at 31.92 J/mol K. Single particle electron microscopy shows that the A. aeolicus complex I has the typical L-shape. However, visual inspection of averaged images reveals many more details in the external arm of the complex than has been observed for complex I from other sources. In addition, the angle (90degrees) between the cytoplasmic peripheral arm and the membrane intrinsic arm of the complex appears to be invariant.