间位羟基/甲氧基多溴联苯醚的合成

本文设计了3种合成路线,通过偶合反应、Baeyer-Villiger氧化水解、硝基还原、加溴反应、去甲基化等一系列反应,合成了多种间位羟基/甲基多溴联苯醚.产物经过气相色谱-质谱仪(GC-MS)和核磁共振测试表明实验所合成得到的产物与设计的目标产物结构完全一致,其纯度达到标样要求.     

β-环糊精微球吸附对苯二酚单甲基醚的动力学研究

研究了以β-环糊精(β-CD)和环氧氯丙烷为原料,采用反相悬浮聚合法合成的β-CD微球对对苯二酚单甲基醚( HQMME)的静态吸附行为,分析了吸附热力学性质和动力学特征.实验结果表明:β-CD微球对HQMME的吸附过程同时符合Lagergren一级吸附动力学方程和McKay二级吸附动力学方程;β-CD微球对HQMME的吸附等温线可同时用Langmuir等温吸附方程和Freundlich等温吸附方程描述;在不同温度下,β-CD微球吸附HQMME的吸附焓变、吸附熵变、吸附吉布斯自由能变均为负值,说明吸附是一个自发、放热的过程.     

Development of inherent safety and health index for formulated product design

The numerous formulated products which are introduced to the market consist of chemical ingredients that may cause various safety and health hazards to the consumers. Therefore, it is extremely important to practice a systematic methodology to formulate products with acceptable safety and health performances. This work presents an index-based methodology to assess the safety and health hazards of the ingredients during the early formulation stage of product design. Hence, new inherent safety and health sub-indexes are introduced to improve the current safety and health hazards that are needed in formulated product design. The inherent safety and health sub-indexes are assigned with scores based on the degree of potential hazards. A higher score indicates a higher safety risk or severe health effect, and vice versa. The proposed methodology will greatly assist the users to identify the adverse safety and health effects caused by the ingredients. Hence, it is pivotal to eliminate or reduce the safety and health impacts from product usage. A case study on common ingredients used in the formulation of paint is presented on this study to describe the proposed method.     

网状聚合物冠醚对重金属离子的吸附性能

以Hg（NO3）2、Cu（NO3）2水溶液为模拟工业废水，以侧链具N、S配位基的网状聚合物冠醚为吸附剂，研究了聚合物冠醚对HP(2＋)、Cu(2＋)的吸附性能。讨论了溶液温度、pH值、金属离子浓度及时间对吸附性能的影响，该聚合物冠醚对Hg(2＋)具有较高的吸附容量和较快的吸附速度。     

空气中联苯——联苯醚的气相色谱法测定

以国产硅胶担体为固体吸附剂,采集空气中联苯-联苯醚。经热解吸、制冷、闪蒸后,用气相色谱法测定。实验结果,在常温下,国产硅胶对联苯-联苯醚的吸附率达100％;解吸回收率为97.5％:变异系数<5％;方法的检测限为0.4μg。     

甲基叔丁基醚降解菌的驯化与筛选

为了筛选降解甲基叔丁基醚(MTBE)的优势菌种,调查了不同来源土壤土著菌的降解潜力.应用不同的驯化方式以MTBE为惟一碳源,在好氧的条件下,驯化、筛选出高效降解混合菌株,为现场应用打好基础.并从中分离得到6株高降解性的单一菌株,对其进行了初步鉴定,为进一步研究其降解途径做好准备.对单一菌株与混合菌株的降解效果进行了比较.结果表明,混合菌株的降解效果要明显高于单一菌株.     

Persistence of methyl <Emphasis Type="Italic">tertiary</Emphasis> butyl ether (MTBE) against metabolism by Danish vegetation

BACKGROUND: Methyl tertiary butyl ether (MTBE) is the second most highly produced industrial chemical in the US and a frequent groundwater pollutant. At the same time, MTBE is quite persistent to biotic and abiotic decomposition. The goal of this study was to find plant species that could degrade MTBE and might be used in phytoremediation. METHODS: Excised roots and leaves (0.3 g) from more than 24 Danish plant species out of 15 families were kept in glass vessels with 25 ml spiked aqueous solution for 2 to 4 days. MTBE concentrations were 1 to 5 mg/L. Samples were taken directly from the solution with a needle and injected to a purge and trap unit. MTBE and the main metabolite, TBA, were measured by GC/FID. RESULTS AND DISCUSSION: Solutions with roots of poplar (Populus robusta) and a willow hybrid (Salix viminalis x schwerinii) produced TBA in trace amounts, probably stemming from bacteria. Significant MTBE reduction (> 10%) was not observed in any of the tests. Leaves from none of the species (trees, grasses and herbs) reduced the concentration of MTBE in the solution and no TBA, nor any other known metabolite of MTBE, was detected. CONCLUSION: It was not possible to find plants capable of efficiently degrading MTBE. This gives rise to the conclusion that plants probably cannot degrade MTBE at all, or only very slowly. RECOMMENDATIONS AND OUTLOOK: For phytoremediation projects, this has, as consequence, that the volatilization by plants (except with genetically engineered plants) is the only relevant removal process for MTBE. For risk assessment of MTBE, degradation by the plant empire is not a relevant sink process.     

2,4,4'-三溴联苯醚的光降解研究

以固相微萃取(SPME)结合气相色谱(GC)、气相色谱-质谱联用(GC/MS)技术作为分析检测手段,研究光源、有机溶剂、无机盐与腐殖酸对BDE-28光降解的影响,实验结果表明,光源是影响其降解的主要因素,其次,丙酮、铜离子和腐殖酸对其降解的影响较显著.光源对BDE-28光降解速率的影响为300 W汞灯500 W金卤灯100 W汞灯500 W氙灯;有机溶剂对BDE-28降解速率的影响为甲醇/水(1∶1)甲醇己烷甲苯乙腈丙酮;无机离子的影响各有差别:K+、Na+、SO2-4、NO-3、Cl-对BDE-28降解影响不明显,而Fe3+、NH+4促进BDE-28的降解,Fe2+、Cu2+、Br-抑制BDE-28的降解;腐殖酸抑制BDE-28的降解.     

Is BDE-175 an important enough component of commercial octabromodiphenyl ether mixtures to be listed in Annex A of the Stockholm Convention?

Commercial octabromodiphenyl ether mixtures, containing hexabromodiphenyl ethers and heptabromodiphenyl ethers were listed in Annex A of the Stockholm Convention on May 2009 (Fourth Conference of the Parties) (UNEP, 2009a). Four compounds are specifically mentioned: 2,2′,4,4′,5,5′-hexabromodiphenyl ether (BDE-153), 2,2′,4,4′,5,6′-hexabromodiphenyl ether (BDE-154), 2,2′,3,3′,4,5′,6-heptabromodiphenyl ether (BDE-175), and 2,2′,3,4,4′,5′,6-heptabromodiphenyl ether (BDE-183). Presumably they were identified as key components of commercial mixtures and found to be present in environmental samples. However, since BDE-175 and BDE-183 co-elute on common HRGC columns, the presence of BDE-175 as an important component in technical octa-BDE mixtures has not been illustrated. The successful HRGC/LRMS separation of a 1:1 mixture of BDE-175 and BDE-183, as well as ¹H NMR analysis of technical material, has allowed us to confirm that this congener is not present in technical products (e.g. Great Lakes DE-79™) in quantifiable amounts.     

直接固相微萃取气相色谱-质谱法测定辛基酚聚氧乙烯醚

建立了直接固相微萃取与气相色谱-质谱联用技术测定污水中辛基酚聚氧乙烯醚(OPEO_n)低聚物的方法.在最优实验条件下,测定辛基酚(OP)、辛基酚二乙氧醚(OPEO_2)、辛基酚三乙氧醚(OPEO_3)、辛基酚四乙氧醚(OPEO_4)、辛基酚五乙氧醚(OPEO_5)的线性范围分别为10～100,10-1 000,10～500,10～1 000,10～1 000 ng/L;检出限分别为10.4,7.7,8.1,9.0,8.5 ng/L;回收率为78.4%～114.0%,相对标准偏差小于10.4%.以正二十烷为内标,测定污水处理厂出水中的OPEO_n,实验结果表明,OPEO_2质量浓度高且变化范围较大,为133～2 412 ng/L.