Asymmetric Synthesis of (-)-1-Trimethylsilyl-ethanol with Immobilized Saccharomyces Cerevisiae Cells in Water/Organic Solvent Diphasic System

Asymmetric synthesis of (-)-1-trimethylsilyl-ethanol with immobilized Saccharomyces cerevisiae cells in water/organic solvent biphasic system was studied. The effects of shake speed, hydrophobicity of organic solvent, volume ratio of water phase to organic phase, pH value of aqueous phase and reaction temperature on the initial reaction rate, maximum yield and enantiomeric excess (ee) of the product were systematically explored. All the above-mentioned factors had significant influence on the reaction. n-Hexane was found to be the best organic solvent for the reaction. The optimum shake speed, volume ratio of water phase to organic phase, pH value and reaction temperature were 150 r.min-1, 1/2, 8 and 30 ℃ respectively, under which the maximum yield and enantiomeric excess of the product were as high as 96.8% and 95.7%, which are 15% and 16% higher than those of the corresponding reaction performed in aqueous phase. To our best knowledge, this is the most satisfactory result obtained.

Supercritical water oxidation of spent extraction solvent simulants

The rapid development of nuclear technology has led to more liquid organic radioactive wastes. Different from the regular aqueous radioactive wastes, these liquids possess a higher hazard potential and cannot be disposed through the conventional methods due to their radioactivity and chemical nature. Spent extraction solvent is a kind of common liquid organic radioactive wastes. In this work, tri-butyl phosphate(TBP), which is more difficult to degrade in the spent extraction solvent, was used as the model compound. Influences of reaction conditions on total organic carbon(TOC) removal and the volume percentage of each gas component under supercritical water oxidation(SCWO) were studied. The SCWO behaviors of spent extraction solvent simulants were studied under the optimal conditions derived from the TBP experiment. The SCWO experiments were studied at 400–550℃, oxidant stoichiometric ratio of 0–200%, feed concentration of 1.5%–4% and pressure of25 MPa for 15–75 s. The results show that the TOC removal of the simulants was greater than 99.7% and CH4,H2 and CO were not detected at 550℃, 25 MPa, oxidant stoichiometric ratio of 150%, feed concentration of3%, and residence time of 30 s.

光刻胶废剥离液中分离回收水和有机溶剂研究进展

光刻胶废剥离液中含有大量的水和有机溶剂,其中包含大量有回收价值的成分。从光刻胶废剥离液中回收水和有机溶剂可以减少对自然界的污染,实现资源化利用。综述了国内外几种从光刻胶废剥离液中回收水和有机溶剂常见分离方法及分离装置,并对不同情况下所产生效果进行分析比较。希望能为我国电子行业中光刻胶废剥离液的资源化处理提供借鉴。

现代化萃取技术在水环境监测中的应用研究

水环境监测中,快速溶剂萃取技术具备所需溶剂少、萃取率高、损耗时间短等显著应用优势,是一种典型的样品前处理技术。基于此,就该项技术的作用机理、工艺流程以及应用范围进行分析,并对其实践应用前景进行深入研究,以期促进该技术的进一步发展应用。

Research Progress in the Fabrication of Covalent Organic Framework Membranes for Chemical Separations

Membrane technology has become one of the most promising separation technologies for its energy saving, high separation efficiency, environmental friendliness, and economic feasibility. Covalent organic frameworks(COFs) with intrinsically high porosity, controllable pore size, uniform pore size distribution and long-range ordered channel structure, have emerged as next-generation materials to fabricate advanced separation membranes. This feature article summarizes some latest studies in the development of pure COF membranes in our lab, including their fabrication and applications in chemical separations. Finally, current challenges facing high-performance COF separation membranes are discussed.

一种有机分子的合成及其对有机溶剂中水含量的检测

设计合成了一种以3,5-二叔丁基-4-羟基苯甲醛为电子给体、三氰基呋喃衍生物为电子受体的新型传感器C1,经^(1)H NMR,^(13)C NMR和HRMS表征,并通过可视化观察和紫外-可见吸收光谱研究C1对四氢呋喃中水含量的定性和定量分析。结果表明:C1在无水四氢呋喃中最大吸收波长为450 nm,当体系中存在水时,溶液在550~600 nm出现新的吸收峰,颜色由黄色变为紫色;当水的含量在0~2.94%(%V:V)时,590 nm处吸光度与水体积浓度展现出良好的线性关系,线性方程为y=0.069 07X+0.010 6、R^(2)=0.996 16;并且利用手机采集溶液RGB值,可构建RGB-水含量线性曲线判断四氢呋喃中水含量。

磁性ZIF-8/石墨烯气凝胶制备及油水分离性能

为解决溢油和有机污染物问题,以NiFe_(2)O_(4)为磁性载体、氧化石墨烯(GO)为气凝胶框架、ZIF-8为金属有机材料,通过化学还原法制备了一系列不同复合比的磁性ZIF-8/石墨烯气凝胶(GA/NiFe_(2)O_(4)/ZIF-8),探究了其对乙醇、正己烷、油酸、花生油、真空泵油5种有机溶剂的吸附性能。结果表明,该复合气凝胶具有高效的吸附分离能力(吸附能力是其自身质量的20.0~46.6倍),且均高于对照试验组的石墨烯气凝胶(GA)和磁性石墨烯气凝胶(GA/NiFe_(2)O_(4))。进一步以正己烷为目标污染物进行循环试验,经过5次循环实验后,其吸附量降低不明显,降低幅度为1%~6%。此外,以真空泵油为目标污染物,考察了-60~140℃范围内复合气凝胶的高效吸附稳定性。这些优异性质的GA/NiFe_(2)O_(4)/ZIF-8复合气凝胶的开发有望为含油污水的油水分离处理提供借鉴。

石墨烯复合气凝胶在水污染治理方面的应用分析

为提升GA材料的机械性能,实现水污染的有效治理,通过将天然橡胶乳液与GA的水性分散液混合制备GA/NRL,吸附测试结果表明:对MB正电性染料吸附效果好,且对轻油、重油有机溶剂的吸收量分别是自身质量130、276倍,吸油、吸水效果好。循环吸附效果表明:对十二烷的吸油能力随循环系数的增加而保持稳定,且经4次循环后,还能够将材料中70%左右的油去除,循环利用性能好。

A simple method for determining water content in organic solvents based on cobalt(Ⅱ) complexes

A method to determine water content in organic solvents was developed based on the color change of cobalt（Ⅱ） nitrate in different solvents.The color-change mechanism and optimal conditions for determining the water content were investigated.The results showed that there was a good linear relationships between the absorbance of cobalt（Ⅱ） complexes in organic solvents and water contents withγin 0.9989～0.9994.This method has the advantages of low cost,good reproducibility,good sensitivity,simple in operation,fast in detection,friendly to the environment and no limitation on linear range for determining water content.It was used to determine water in samples with a satisfactory recovery in 97.81%～101.24%.

Asymmetric Reduction of 3,5-Bistrifluoromethyl Acetophenone with NADH Regeneration by Immobilized Cells of Saccharomyces rhodotorula in Aqueous-Organic Solvent Biphasic System

Asymmetric reduction of 3,5-bistrifluoromethyl acetophenone to produce(S)-3,5-bistrifluoromethylphenyl ethanol was successfully carried out with sodium alginate immobilized Saccharomyces rhodotorula cells in an aqueous-organic solvent biphasic system.The possible influential factors were examined thoroughly according to their effects on conversion rate and e.e of the product.Organic solvents were rated by their biocompatibility and conversion potential.The immobilized cells [125 mg/mL in 20 mmol/L Tris-HCl buffer and 5%(j) octane at pH 8] showed the best conversion with a substrate concentration of 1.42 g/L at 30℃ with glucose as co-substrate for cofactor regeneration.Sequential 8-batch process was carried out with immobilized cells with a slow decrease in conversion and e.e.The immobilized cells showed stable catalytic activity with 50% reserved activity and are superior especially in reusability in comparison with resting cells.

物理溶剂及有机胺的性质对相变吸收性能的影响

相变吸收剂的再生能耗较低,具有良好的应用前景,但目前物理溶剂型相变吸收剂的开发都伴随着大量的筛选工作。为解决此问题,本文选取了不同水溶性的物理溶剂和氨基种类的有机胺,利用实验室搭建的小型实验装置,依次进行吸收、分相和再生实验,探究水溶性及氨基种类对相变吸收剂性能的影响,为后续的筛选工作提供一定的理论依据。研究发现:物理溶剂的水溶性与溶液的吸收和再生性能无明显规律性的关系,但疏水型物理溶剂组成的相变吸收剂具有更低的富相比例和更高的富相CO_(2)比例;只含叔氨基的溶液再生性能好,但相比于有机胺水溶液吸收速率提升幅度小、吸收负荷出现降低;氨基种类对分相性能影响不大,但氨基数目影响着富相比例的变化幅度。

曼谷城区总悬浮颗粒物的化学组成特征、来源解析及其人肺上皮细胞A549毒性

城市大气颗粒物暴露与人群健康不利效应密切相关,由于颗粒物来源广泛、组成复杂,其引致的健康毒性效应不尽相同。本研究旨在探查城市颗粒物的化学组成、来源及其对人体细胞的毒性效应。采集泰国曼谷城区一年的大气总悬浮颗粒物(TSP)样品,分析水溶性离子、微量金属元素、碳质组分及有机分子标志物含量,并利用正定矩阵因子(PMF)模型解析曼谷TSP来源;测定人肺上皮细胞A549暴露于TSP水萃取组分和有机萃取组分后细胞毒性的变化,包括细胞存活率、活性氧(ROS)生成、白细胞介素-8(IL-8)及细胞凋亡。结果表明,曼谷TSP浓度呈现干季高、湿季低的季节趋势,有机组分和水溶性离子是TSP的主要组分(>50%)。PMF模型解析结果显示,生物质燃烧(24.7%)、陆地化石燃料燃烧(21.1%)和土壤扬尘(20.6%)是干季内曼谷TSP质量浓度的主要贡献者,而湿季内曼谷TSP的主要来源为陆地化石燃料燃烧(29.5%)、生物质燃烧(16.6%)及海盐(16.0%)。曼谷TSP水萃取组分和有机萃取组分均可引起A549细胞毒性,其中TSP有机萃取组分暴露后的细胞具有更高的死亡率、ROS水平和凋亡率,而TSP水萃取组分暴露后的细胞则具有更高的IL-8水平,这种差异表明诱导胞内ROS(即氧化应激响应)和细胞死亡(细胞存活率与凋亡率)的主导活性组分与诱导IL-8的主导活性成分不同。

绿色荧光碳点检测有机溶剂中的水含量

以柠檬酸和尿素为前驱体通过水热法制备得到绿色荧光碳点,通过透射电子显微镜、紫外可见吸收光谱、荧光光谱以及时间分辨荧光光谱对碳点进行表征和分析。碳点的粒径为6.5 nm,在252 nm、273 nm和410 nm处存在吸收峰,最佳激发和发射波长分别为400 nm和517 nm,根据已有研究推测碳点的荧光主要来源于4-羟基-1H-吡咯并[3,4-c]吡啶-1,3,6(2H,5H)-三酮。发现不同溶剂中的碳点具有不同的发光特性,包括荧光强度、发射峰位和荧光寿命,因此将碳点作为荧光探针检测质子溶剂乙醇和非质子溶剂二甲基甲酰胺中的水含量。实验结果表明随着水含量的增加,混合溶液中碳点的荧光强度下降,发射峰位红移,发射峰轻微加宽,荧光寿命缩短。碳点的荧光强度、发射峰位以及荧光寿命三者与水含量之间均存在线性响应关系,检测范围宽至0~100%。本方法同样适用于甲醇和乙二醇,具有普适性,该碳点有望成为快速灵敏检测有机溶剂中水含量的潜在探针。

碳点在膜技术中的应用进展

碳点(CDs)是一种新型的零维碳基材料,其具有超小尺寸、亲水性强、丰富的表面官能团、易于合成和良好的水溶性等优异特性.通过调控CDs的性质可以提高复合膜的水通量和分离性能,将其引入膜材料中对开发高渗透性和高选择性复合膜具有重要意义.因此,CDs在膜分离领域展现了巨大的应用前景.本文介绍了CDs或改性CDs的合成方法,总结了CDs复合膜的制备及其在气体分离、水净化、有机溶剂分离等领域的应用,并对CDs在膜技术领域的应用中所面临的机遇与挑战进行了展望.

非溶剂水添加对溶剂剥离正极材料与集流体的影响

通过聚偏氟乙烯(PVDF)在不同体系中的溶解性差异对其进行溶解与去除,从而剥离废锂电池正极极片的活性物质与铝箔集流体。通过调控N-甲基吡咯烷酮(NMP)溶剂中H_(2)O的质量分数来溶解和去除有机粘结剂PVDF,考察了非溶剂水添加对电池极片剥离效果的影响。结果表明,非溶剂水添加质量分数为0~5%、温度为80℃、超声处理60 min、固液比为1∶5、搅拌速率为600 r/min的条件下,极片剥离效果较好,最佳剥离率为99.62%。在此基础上进行了PVDF的析出去除及NMP循环回用可行性探究。对比传统溶剂溶解法,非溶剂水的添加具有环保性、经济性的优点。

琥珀油的提取及成分分析

分别采用水蒸气蒸馏法和有机溶剂提取法提取琥珀挥发油(琥珀油)。在琥珀油提取过程中,考察了不同类型提取溶剂、琥珀粉碎程度、浸泡时间及提取时间等因素对琥珀油得率的影响,以及优化琥珀挥发油的提取工艺。结果表明,水蒸气蒸馏法与有机溶剂提取法相比,水蒸气蒸馏法提取琥珀油量少,纯度较高;有机溶剂提取法提取的琥珀油量多,但纯度较低。当琥珀粉粒径为1.5×10^(5)nm、提取温度为120℃,提取时间为12~14 h时,采用水蒸气蒸馏法提取出的琥珀油最为纯净,琥珀油最大得率为0.75%。通过红外光谱分析,发现琥珀油中主要含有烷烃类、脂肪酮类或饱和脂肪酸酯、芳烃类、醇和烯烃类化合物等,通过气相色谱-质谱(GC-MS)对琥珀挥发油的化学成分进行了鉴定,通过面积归一化法确定各成分的质量分数,鉴定出琥珀油中主要成分有斯巴醇(质量分数为36.74%)、α-咕巴烯(质量分数为23.84%)、氧化石竹烯(质量分数为5.25%)、马兜铃烯环氧化物(质量分数为5.02%)、β-榄香烯(质量分数为3.63%)、1,6-二烯-3-律草醇(质量分数为3.29%)、异长叶烯(质量分数为3.10%)和α-比萨波醇(质量分数为2.79%)等,琥珀挥发油各项指标符合国家标准,重金属含量较少,菌落数达标。

工程废弃泥浆泥水分离技术研究现状与未来发展研究综述

针对建筑行业产生的大量工程渣土与废弃泥浆,诸多学者对高效、经济的泥浆处理方式进行了研究。该文系统介绍废弃泥浆和渣土的处理难点和方式,着重介绍了废弃泥浆中含有的有机溶剂对环境的影响和絮凝剂、固化剂和机械压滤的泥浆处理方式。由于废弃泥浆的含水量普遍较高,产生了较大的运输问题和资源循环利用问题,因而找到最适合泥浆分离的絮凝剂、固化剂的配合比和机械处理方式便尤为迫切。而现有研究常常限制于特定的絮凝剂和固化剂,缺少用于泥水分离的新型化学药剂和泥水分离后泥饼的力学分析。

两相系统中生物转化茴脑生成茴香醛

考察了假单胞菌BT-13在有机溶剂-水两相系统中生物转化茴脑生成茴香醛的过程,初步探讨了有机溶剂极性和加入量、培养基配方、转化时间、转化温度、摇床转速、装液量及pH等条件对游离细胞转化茴脑合成茴香醛的影响。结果表明:适宜有机溶剂为乙酸乙酯,加入量控制在体积分数10%为宜;适宜的培养基为改良马丁氏培养基,培养方式采用摇床培养。在装液量为20 mL每150 mL三角瓶,培养基初始pH控制在6.5,温度30℃,转速150 r/m in下转化30 h,茴香醛的摩尔转化率可达7.7%。在乙酸乙酯-水两相系统中,用海藻酸钙固定化细胞进行转化,茴香醛的摩尔转化率有所提高,达12.6%。

溶剂浮选法分离富集工业废水中痕量有机污染物的研究

采用溶剂浮选法对工业废水中痕量有机污染物进行分离富集,用气相色谱质谱(GC MS)联用法对其进行鉴定。针对废水中几种主要有机污染物,对影响溶剂浮选的参数进行了优化。所述方法用于分析某石化工业废水中主要存在的39种痕量有机污染物,结果表明这是一种简便、可行的水质分析前处理方法。

液-液双相体系中β-D-呋喃果糖苷酶催化转移反应的特性

筛选出一些有利于维持 β D 呋喃果糖苷酶稳定性的有机溶剂 ,并研究了其在水 有机溶剂双相体系中催化转移反应的基本特性。非水相体系组成、pH值、温度和反应时间对酶反应速率有显著的影响 ,在丁酸乙酯 缓冲液双相体系中 ,有利于该酶发生转移反应、合成低聚糖的反应条件为 :有机溶剂体积比 91 5 8% (蔗糖底物初始量为 4 7 5 2 g/L ,酶添加量 0 5U/mL) ,pH 6 0 ,保温温度 5 4℃ ,此时振荡反应 32min后低聚糖合成率可达 3 4 1%。聚羟乙基异丁烯酸固定化 β D 呋喃果糖苷酶在丁酸乙酯 水双相体系中具有良好的稳定性和机械强度 。