超氧化物歧化酶模拟物的合成研究进展

对化学合成、生物合成等方法制备超氧化物歧化酶模拟物的研究进行了系统综述,对比分析了各种方法的优势和局限性,并展望了超氧化物歧化酶模拟物未来的发展方向。     

基于炼焦煤族组成和结构参数的焦炭质量预测模型及其成焦机理

以五种炼焦煤和44组配合煤为研究对象,在40 kg小焦炉环境下完成煤杯炼焦实验,以煤全组分分离所获得的煤重质组、密中质组和疏中质组收率Y_(HC)、Y_(DMC)、Y_(LMC)及反映煤中氢键缔合情况和脂肪链长短或支链化程度的红外光谱参数I3、I4为主要指标,通过BP神经网络分析方法建立了焦炭质量预测模型,并讨论了模型的特点,分析了新模型下的成焦机理。结果表明,使用新的煤组成结构参数预测焦炭质量具有一定优势,成焦率(CR)、显微强度(MSI)、粒焦反应性(PRI)和反应后强度(PSR)的预测值和实测值有较好一致性,对y=x的拟合相关系数分别达到0.986、0.982、0.956和0.926。模型对CR、MSI和PRI的预测效果较好,九个预测样本的平均偏差分别为0.53%、1.58%和1.28%;但对反应后强度PSR预测效果较差,平均偏差在12.22%。研究结果为建立炼焦配煤新方法提供了良好基础。     

碱金属沉积对Mn-Ce/TiO_2低温SCR催化剂性能影响

采用溶胶凝胶法制备了Mn-Ce/TiO_2低温SCR催化剂,考察了碱金属浓度与种类对催化剂活性的影响,探究了不同反应条件下钠盐沉积对活性保留分率的影响,利用SEM、BET、XRD和FT-IR对催化剂碱金属中毒原因进行了分析。结果表明,碱金属毒化后催化剂脱硝活性下降,钾中毒催化剂失活程度高于钠中毒的催化剂,2%钾中毒催化剂在160℃时NO去除率为62.0%,较新鲜催化剂下降29.2%。这主要因为碱金属毒化造成催化剂比表面积明显减小,且催化剂载体锐钛矿型TiO_2部分转化为金红石型,BET和SEM表征均说明碱金属沉积堵塞了催化剂表面的微孔。碱金属对Mn-Ce/TiO_2催化剂活性保留分率的影响表明,催化剂的颗粒粒径对其活性保留分率影响不大,碱金属含量减小、温度升高,Mn-Ce/TiO_2催化剂的活性保留分率增加,Na_2SO_4和NaCl对Mn-Ce/TiO_2催化剂的脱硝活性抑制作用大于KNO_3。     

实验室安全环保意识的调查与分析——以中山大学化学类专业学生为例

A survey about students' laboratory safety and environmental protection consciousness was performed in the freshmen majored in chemistry at Sun Yat-Sen University. Results showed that laboratory safety and environmental protection consciousness of most students' are weak. After analyzing the reasons, we put forward some suggestions. Cultivating students' laboratory safety and environmental protection consciousness should be carried out from several aspects such as emphasizing and regulating from school level, training in laboratory teaching, maintaining good cultural atmosphere of laboratory, as well as providing perfect laboratory safety and environmental protection facilities. We should guide students to actively learn knowledge and skills of laboratory safety and environmental protection in order to develop their good behavior and raise their consciousness.     

物理化学实验内容的探索与实践

The laboratory teaching plays more important role for improving the students' scientific literacy according to the progress of the modern society. To provide enough scientific training opportunities, the usual technology and methods used in physical chemistry research field were introduced into the physical chemistry laboratory teaching.     

简单的配体改变调控钌配合物催化还原CO2的活性：硼基配体的对位效应和Ru―H键的性质

开发高效的催化剂用于催化还原CO₂转化为甲酸和它的盐类已经成为研究的热点,是因为将CO₂转化为C1产物不仅可以解决CO₂的含量升高带来的环境问题,还可以解决化石能源燃烧日趋严重的问题。贵金属配合物催化CO₂转化为甲酸和甲酸盐类是目前这类反应最有效的方式,尤其是Ru、Ir和Rh等贵金属。我们之前的研究结果表明Ir(Ⅲ), Ru(Ⅱ)类配合物催化还原CO₂转化为甲酸盐的活性是由配合物Ru―H键的成键性质决定的。它们能高活性的催化CO₂是由于它们都含有同一种特点的Ru―H键,是由Ru的sd²杂化轨道和H的1s轨道杂化而成的,而且这一特点可以被活性氢的对位配体显著影响。鉴于硼基配体具有强的对位效应,我们基于高活性的均相催化剂Ru(PNP)(CO)H₂ (PNP = 2, 6-二(二叔丁基磷甲基)-吡啶)设计了Ru-PNP-HBcat和Ru-PNP-HBpin,并计算了二者催化还原CO₂的活性。Bcat和Bpin配体是实验上常用的硼基配体。我们的计算结果表明Ru-PNP-HBcat和Ru-PNP-HBpin有比Ru-PNP-H₂更长的Ru―H键、亲核性更强的活性氢,其Ru―H键中的Ru原子的d轨道杂化成分的贡献也比Ru-PNP-H₂的更少。相应地Ru-PNP-HBcat和Ru-PNP-HBpin活化CO₂的能垒比Ru-PNP-H₂低。而且Ru-PNP-H₂、Ru-PNP-HBcat和Ru-PNP-HBpin催化CO₂转化为甲酸盐的能垒分别为76.2、67.8、54.4 kJ∙mol^-1,表明Ru-PNP-HBpin具有最高的催化活性。因此,钌配合物催化还原CO₂的活性可由硼基配体强的对位效应和Ru―H键的成键性质来调控。     

AC Electrochemical Deposition of CdS Nanowire Arrays

Since the successful growth of carbon nanotubes, one-dimensional materials have been a focused research field both because of their fundamental importance and the wide-ranging potential applications in nano devices. Many approaches are used to fabricate nanowires, such as crystal growth. In order to obtain nanowires whose growth is more easily controlled, electrochemical synthesis in a template is taken as one of the most efficient methods. To date, Co, Fe, Ni, CuCo1-3 and other nanowire arrays have been fabricated successfully by electrodepositing corresponding metal ion into the porous aluminum oxide (PAO) membrane or other non-magnetic materials. Cadmium sulfide(CdS), as one of the most important semiconductor material, is a n-type semiconductor. The ability to fine tune their fundamental electronic and optical properties by simply varying the cruster size, rather than composition, makes them highly attractive for a variety of possible application. In this paper, we report our work of fabricating CdS nanowire arrays based on AC electrolysis into the pores of an anodic aluminum oxide(AAO), the structure and morphology were characterized by XRD and TEM.     

Analysis of Polysaccharides in Shii - Take fiom Guizhou

Polysaccharides, special those with physiological actions and nutrition, are widely used as an important resources for food, medicine industries, health etc. Herba Glossogynes Tenuifoliae (Shii-Take) is rich in polysaccharides with physiological actions and nutrition. Guizhou lies to the southwest of China, Natural resources abound in this province, in which there is high output and many species of Shii-Fake. So study in the Shii-Take is favor of reasonably utilizing the natural resources and getting high addvalue products. And what is more, It is necessary for energetically developing west economy.     

电化学沉积制备半导体CuInSe2薄膜

本文报道恒电位法在pH为1.35的Cu₂SO₄、SeO₂、In₂(SO₄)₃溶液中,在Ti电极上电化学沉积制备CuInSe₂纳米薄膜.研究络合剂柠檬酸和酒石酸对制备CuInSe₂纳米薄膜的影响.扫描电子显微镜(SEM)结果表明,加入络合剂后,电化学沉积的薄膜表面颗粒分布更均匀、致密.X射线衍射(XRD)分析显示,制备的CuInSe₂薄膜是黄铜矿和闪锌矿相的混和物,添加柠檬酸和酒石酸后,衍射峰增强,晶形变好.制备的薄膜颗粒尺寸大小在250nm左右,造成粒度增大的原因是由于颗粒的团聚作用.     

Synthesis of the Stereoisomers of the Sex Pheromones of the Southern Corn Rootworm

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