磁载纳米TiO_2复合光催化材料的研究进展

磁载纳米TiO2复合光催化剂是一种无污染,制备成本低,催化活性高,在外加磁场下可迅速分离回收和重复使用的光催化材料,在废水的光催化降解中有着诱人的应用前景.本文综述了不同类型磁载纳米TiO2复合光催化材料的制备方法和光催化性能,总结了其在染料、农药、芳香烃及其衍生物、有害无机离子和有毒气体等各种环境污染物处理中的应用,并展望了磁载纳米TiO2复合光催化剂的发展方向.

磁固相萃取用于环境污染物分离富集的新进展

磁固相萃取(MSPE)吸附剂具有比表面积大、磁性强、修饰方便、分离效率高、操作简便、可重复利用和环境友好等优点。本文介绍了各种MSPE材料的制备和表面改性方法,着重综述了一年多时间内MSPE在环境中多环芳烃、药物、农药、染料及中间体、邻苯二甲酸酯、多氯联苯、溴代阻燃剂、雌激素和有毒元素等污染物分析样品前处理中应用的最新进展,并对MSPE的发展前景进行了展望。

The Effect of the Novel "light fertilizer" on the Environment Factor in High Tunnel and Growth of Brassica Chinensis

[Objective] The aim was to study the properties of novel ＂light fertilizer＂, photo-conversion film, in order to evaluate its effect on the environmental factors and morphogenetic process of crops in the high tunnel. [Method] Photo-conversion film and Iongevous anti-dropping film were compared in terms of light, air and soil temperature utilizing the Facilities of leafy agriculture high tunnel intelligent monitoring system. Verifying the results by farmland experiment. [Result] Photo- conversion film indeed improved the light quality of high tunnel compared with the Iongevous anti- dripping film. The air and soil temperature was raised several degrees. Results of farmland experiment show that the average value of brassica chinensis fresh weight increased 19.15% compared to the control. [Conclusion] Photo-conversion film promotes more crop growth than Iongevous anti-dropping film due to improvement of light quality, air and soil temperature.

Agricultural Application of Multi-functional Leaf Vegetables Light-conversion Film

[Objective] The aim was to detect property of light-conversion agricultural films in order to resolve problems existing of greenhouses and in cultivation of out- of-season vegetables. [Method] Light-conversion films and common films were com- pared in terms Of light, air and soil temperatures. [Result] Vegetable greenhouse performed better in transmission of light, which would also improve air and soil tem- perature. [Conclusion] The comprehensive properties of vegetable light-conversion films proved better compared with common greenhouse, which improves light condi- tions for crops.

2,4-二氯苯氧乙酸生产废水中氯酚的络合萃取处理

2,4-二氯苯氧乙酸是一种使用较为广泛的除草剂,其生产过程中的氯化工段产生大量的含氯酚废水.本文针对该类废水的特点,选择实验室自配的W-S络合萃取剂,通过优化工艺条件如废水初始pH、油水比、萃取剂比例等对废水进行处理,结果表明,W-S萃取剂对体系中的酚类物质具有优良的萃取效果,废水化学需氧量去除率可达71%.另外,选取2,4,6-三氯苯酚为研究对象,通过萃取平衡实验,探讨2,4,6-三氯苯酚的萃取平衡特性,以建立2,4,6-三氯苯酚络合萃取平衡模型,并确定萃取体系中的萃合物组成.

磁固相萃取与高效液相色谱联用测定水体中防治白蚁农药残留

以FeCl_3为铁源用溶剂热法合成了磁性Fe_3O_4纳米粒子,再以葡萄糖为碳源水热法制备了Fe_3O_4/C纳米复合粒子.通过透射电镜（TEM）、X-射线衍射（XRD）、红外光谱（FT-IR）和差热-热重（TG-DSC）等分析手段对材料进行了表征.将材料应用于水体中防治白蚁药物毒死蜱、溴氰菊酯、联苯菊酯的磁固相萃取考察了材料用量、pH、萃取时间、洗脱溶剂、重复性等条件对萃取效率的影响在优化的实验条件下将该方法应用于实际水样的测定,样品的平均加标回收率在82.9%~106.2%,相对标准偏差为2.1%~9.6%,说明该分析方法准确可靠,Fe_3O_4/C纳米复合粒子与高效液相色谱联用的方法可以测定水体中防治白蚁药物残留.

改性黑磷驱油剂的制备及其性能研究

黑磷是一种性能优良的二维纳米材料,本文以黑磷作为基体,聚乙二醇(PEG)改性后接枝月桂酰胺丙基甜菜碱(LAPB)表面活性剂,制备出磁性纳米驱油剂(Fe3O4/PEG@BP-(g)LAPB),并对其进行表征以及室内驱替实验.结果表明,该磁性纳米驱油剂比单纯的表面活性剂采收率提高了5.4%,具有更好的驱油性能.

光谱法比较光疗药物竹红菌甲素及铂竹红菌甲素复合物与牛血红蛋白的相互作用（英文）

通过紫外-可见吸收光谱、瞬态荧光光谱以及圆二色谱来比较光疗药物竹红菌甲素及铂竹红菌甲素复合物与牛血红蛋白的相互作用.结果表明,虽然竹红菌甲素及铂竹红菌甲素复合物与牛血红蛋白的反应机理都是基于电子转移的静态猝灭,但是铂竹红菌甲素复合物与牛血红蛋白的反应不仅要比竹红菌甲素强,而且反应后牛血红蛋白的微环境和构像的改变也要大于竹红菌甲素.

Influence of a New Nano-PE-film on the Greenhouse Environmental Factors

[Objective] This study was to evaluate the impact of a new controlled release anti-drip nano-PE-film （CRANPF） on greenhouse environmental factors. [Method] CRANPF and conventional anti-drip PE film （CLAPF） were compared in terms of air temperature, light intensity and CO2 concentration by the leafy agriculture greenhouse intelligent monitoring system. [Result] Compared to CLAPF, the air temperature rose slower in CRANPF during hot weather and had better photosynthesis efficiency. [Conclusion] Compared with ODLAPF, CRANPF has better perfor- mance and more extensive application prospects.

NBO电荷计算对电中性原理的检验

我们在B3LYP/6⁃31++G(d,p)计算级别下计算了[M(H2O)6]3+(M=Sc^Co)、[Co􀃮L6](L=F-、H2O、NH3、CN-),以及基于α⁃Al2O3晶体结构搭建的铝氧簇Al3O(OH)7(H2O)5(Al3)和Al6O6(OH)6(H2O)5(Al6)的NBO电荷。除[Co(NH3)6]3+外,其它化合物均不符合经典教科书中的电中性原理,具有超出-1^+1范围的电荷。此外,我们发现中心原子的电荷受到配位原子种类的极大影响,而这一规律未在电中性原理的表述中。计算结果表明,从[CoF6]3-到[Co(CN)6]3-,中心离子上所带电荷量从+1.639变化至-1.360,且中心离子上所带电荷随其离子势的增大而降低。另外基于对铝氧簇的计算,我们预测α⁃Al2O3中的Al原子所带电荷应为2.1±0.1。

钯催化下N-亚硝基导向的芳环上氨基邻位C(sp^2)-H键的直接酰氧基化反应

以醋酸钯为催化剂,通过对芳环sp2碳氢键的活化,实现了一个高区域选择性的芳环上氨基邻位的直接酰氧基化反应.该反应具有良好的官能团兼容性,当苯环上有给电子基或一般吸电子基时反应均可发生.该方法具有反应条件温和、操作简单、条件易于控制、产率较高等优点.对可能的反应机理提出了建议.