蒽醌类化合物对大型蚤(Daphnia magna)的急性光致毒性研究

通过测定模拟光照和无光照条件下20种蒽醌类化合物对大型(Daphnia magna)的48h半数活动抑制浓度(EC50), 研究了该类化合物的光致毒性．比较了两种助溶剂(二甲基亚砜和丙酮)对这些化合物光致毒性的影响,初步讨论了光致毒性的机理．结果表明,所研究的助溶剂不影响这些化合物对大型潘的光致毒性．蒽醌类化合物因其取代基的不同(-NH2、-OH、-Cl、-Br、-NO2)、取代基位置的不同和取代基数目的不同,而表现出对大型潘光致毒性的不同．最低未占据分子轨道能(ELUMO)和最高占据分子轨道能(EHOMO)之间的能级差,可用于初步判断蒽醌类化合物 溞大型的潜在光致毒性．     

多环芳烃光解活性的量子化学研究

应用量子化学从头算HF／6-311 G(d)和B3LYP／6-311 G(d)方法计算了16种PAHs的多种量子化学参数,选取六种参数为分子结构的描述符,采用最小二乘法对16种PAHs的光解半衰期进行逐步多元线性回归分析,得到两个PAHs光解半衰期的QSAR模型,模型具有较高的相关系数,可有效地用于预测PAHs的光解半衰期,结果表明,HF方法所得模型优于B3LYP方法所得的模型,所得模型与基于半经验PM3算法的QSAR模型相比较,HF从头算方法所建立的QSAR模型比半经验PM3算法的结果要好,在所考查的诸多参数中,分子最高占有轨道特征值EHOMO对PAHs光解半衰期起着决定作用,最后,运用所得模型预测了3种PAHs的光解半衰期。     

采用实验和密度泛函理论计算揭示吸光性环境介质对多环芳烃光降解的影响机制

多环芳烃(PAHs)在环境中的光降解动力学受环境介质吸光组分的影响.为揭示介质吸光组分对PAHs光降解影响的内在机制,以吸光很弱的甲醇和吸光较强的丙酮和二甲基亚砜(DMSO)为模拟环境介质,考察不同吸光性溶剂介质对3种PAHs(菲、芘和苯并[a]芘)光解的影响;并采用密度泛函理论(DFT)计算,分析了溶剂分子光敏化能量/电子转移反应对PAHs光解的影响机制.结果表明,激发态的丙酮分子抑制了菲和芘的光解,而加快了苯并[a]芘的光解;激发态的DMSO分子抑制了菲的光解,促进了芘和苯并[a]芘的光解.过滤掉DMSO所吸收的部分光谱频段后,PAHs在DMSO中的光解速率与甲醇中的接近.DFT计算表明,激发态的丙酮或DMSO主要作为电子受体与PAHs发生光敏化电子转移反应,是影响PAHs光解的内在原因.     

冰晶中双氧水的UV光解

本文采用253.7 nm的紫外灯光解冰晶中的双氧水,研究其光解率随光照时间和温度的变化.以及Cl~-,SO_4~(2-)和CO_3~(2-)对其降解的影响,结果表明,相同条件下三种离子对其影响大小依次为:Cl~->SO_4~(2-)>CO_3~(2-).对比冰晶和水溶液中双氧水的光解,冰晶中双氧水的光解速率低于水溶液中双氧水的光解速率.紫外-可见光谱(UV-vis)分析其光解产物,没有发现新的物质生成.由此可以认为,冰晶中双氧水主要在冰晶笼子中进行反应,少部分在类似液体层(QLL)中降解.     

分子电性距离矢量用于多氯代二苯并呋喃光解半衰期的QSPR研究（Molecular Electronegativity Distance Vector（MEDV）Applied to Quantitative Structure-Property Relationship Study on Photolysis Half-Lives of PCDFs）

多氯代二苯并呋喃(PCDFs)是一种典型的持久性有机污染物(POPs),光解是其在环境中转化的主要途径.以分子电性距离矢量(Molecular Electronegativity Distance Vector,MEDV)为参数,应用多元线性回归(Multiple Linear Regression,MLR)和偏最小二乘回归(PLSR)对48种PCDFs在云杉针叶和飞灰表面的光解半衰期(t1/2)进行模拟分析,均获得由2个变量所建的定量结构-性质相关(QSPR)模型.多元线性回归结果:建模相关系数(R)分别为0.860和0.836,标准偏差(SD)分别为0.052和0.053,交互检验复相关系数(Rcv)分别为0.839和0.807,外部检验相关系数(Qex)t分别为0.939和0.853;偏最小二乘回归结果:建模相关系数(R)分别为0.857和0.829,交互检验复相关系数(Rcv)分别为0.849和0.807.结果表明,MEDV能较好地表征该类分子的结构信息,所建QSPR模型具有良好的稳定性和预测能力.     

双氯芬酸在水环境中光降解的初步研究

考察了在模拟太阳光照射下,双氯芬酸初始浓度、pH值、光强、温度、丙酮和双氧水对双氯芬酸光解的影响,并通过淬灭实验初步探讨了双氯芬酸光解.结果表明,双氯芬酸的光降解过程符合准一级动力学方程.光解速率随着双氯芬酸初始浓度的降低、光强的增强以及温度的升高而增大.当pH值从3变化到5时,反应速率常数变大;pH值从5变到8时,反应速率常数变小,再继续增大pH值,反应速率常数增大.水环境中存在的双氧水和丙酮对双氯芬酸的光解具有促进作用.最后,通过淬灭实验表明双氯芬酸的光解过程包括直接光解以及通过活性氧物种进行的自敏化光解.     

农药在玻璃表面与正己烷中的光解速率

本文通过测定14种农药在正已烷中和在玻璃表面的光解速率,探讨反应介质对光反应速率的影响,七种拟除虫菊酯农药中,具有α-氰基的五种农药的光解速率明显快于结构上不含α-氰基的二氯苯醚菊酯和联苯菊酯;七种有机磷农药中,具有较大共轭体系的农药光解速率较快,农药在正已烷中与在玻璃表面的光解速率常数之间存在高度相关关系(γ=0.991,n=12),两套数据间的定量关系为y=-3.07×10~(-4)+1.67x。     

农药杀虫双的光解和挥发研究

本文研究了农药杀虫双及其降解产物沙蚕毒的光解和挥发,结果表明:杀虫双在水溶液中、沙蚕毒在甲醇溶液中的光解为一级动力学过程。在450W中压汞灯下的光解速率常数分别为0.33min~(-1)和0.15min~(-1),半衰期分别为2.10min和4.70min。在阳光下的光解速率常数分别为0.00308min~(-1)和0.033min~(-1),半衰期分别为3.75h和21.0min。它们在365nm波长下的光解量子产率分别为255.9相36.6。经初步测定,杀虫双、沙蚕毒在25℃时的饱和蒸气压分别为2.6×10~(-6)mm Hg和4.6×10~(-5)mm Hg。     

自然条件下水中三环唑、氟环唑和苯醚甲环唑的非生物降解及其影响因素

研究了室外条件下河水和海水中三环唑、氟环唑和苯醚甲环唑的非生物降解(光解和水解)行为,并考察了室内条件下硝酸盐、腐殖酸和颗粒物对光解的影响.结果表明,3种目标农药在水环境中的非生物降解(光解和水解)动力学符合一级动力学模型.在厦门夏季室外条件下(平均气温25—32℃),河水中三环唑、氟环唑和苯醚甲环唑的非生物降解半衰期(t1/2)分别为17.6—49.8 d、25.6—90.5 d、16.5—42.6 d,光解t1/2分别为19.9—73.6 d、28.0—131.8 d、17.6—50.5 d,水解t1/2分别为154.0 d、288.8 d、271.8 d;海水中三环唑、氟环唑和苯醚甲环唑的非生物降解t1/2分别为22.8—48.1 d、74.8—93.8 d、37.2—48.4 d,光解t1/2分别为34.1—160.6 d、113.4—163.8 d、87.4—193.0 d,水解t1/2分别为68.6 d、219.7 d、64.6 d.目标农药的光解在非生物降解中占主导地位,河水中的光解速率普遍快于海水.pH升高促进三环唑和苯醚甲环唑的水解,但抑制氟环唑的水解.室内实验发现,硝酸盐抑制目标农药的光解,腐殖酸抑制氟环唑和苯醚甲环唑的光解,但促进三环唑的光解;河水中的颗粒物抑制目标农药的光解,但海水中的颗粒物却能促进目标农药的光解.总体而言,水环境中3种唑类农药的降解半衰期都较长,在实际水环境中的存在状况和毒理效应值得进一步研究.     

农药阿维菌素在水中的光解动态及机理

为了科学评价农药阿维菌素的环境安全性,采用室内模拟方法研究了其在水环境中的光解动态,考察了波长、光强和添加物质等对阿维菌素光降解的影响,进而利用LC/MS鉴定了其主要降解产物,并对降解机理进行了初步探讨.结果表明:紫外灯辐射波长对阿维菌素的光解速率影响较大,波长越短,越有利于阿维菌素的光降解;模拟太阳光强度越大,阿维菌素的光解速率越快;1%H_2O_2、0.1%TiO_2和10%丙酮作为添加物质都能加快阿维菌素的光解进程;通过分析阿维菌素光解产物的TIC图和质谱图,可能主要有两种代谢产物,分析了其降解途径及机理.     

Polyoxometalates for photocatalytic degradation of aqueous dyestuff solutions and quantitative structure–property relationship study on photolysis rate constants

Polyoxometalate, K₆TiW₁₁O₃₉Sn·7H₂O (TiW₁₁Sn), was synthesized and characterized. TiW₁₁Sn and K₆ZrW₁₁O₃₉Sn·12H₂O (ZrW₁₁Sn) were evaluated for their photocatalytic degradation of triarylmethane (brilliant green and acid blue 9), bisazo (C.I. reactive black 5), and monoazo dyestuffs (C.I. reactive red 24, C.I. reactive red 194, and C.I. reactive orange 5) with natural sunlight in homogeneous aqueous solutions. TiW₁₁Sn and ZrW₁₁Sn effectively and photocatalytically decolorized the dyestuffs. The TiW₁₁Sn- and ZrW₁₁Sn-mediated photocatalytic degradation of the dyestuffs involved a pseudo-first-order reaction and was modeled by Langmuir–Hinshelwood-type kinetics. The observed pseudo-first-order rate constants (K^/) of triarylmethane dyestuffs were generally bigger than that of the azo dyestuffs. Quantitative structure–property relationship models of the K^/ of the dyestuffs were developed using partial least-square regression. The cumulative variance of the dependent variable explained by the partial least-square components was > 0.753 for each optimal model. This value indicated that the model had good predictive ability and robustness. The K^/ values of the dyestuffs were related to the energy of the lowest unoccupied molecular orbital, and the most positive net atomic charges on a sulfur atom of dyestuffs. The linear correlation coefficients between the predicted and experimental values were all > 0.9950.     

Effect of molecular properties on the photocatalytic degradation rates of dichlorophenols and dichloroanilines in aqueous TiO2 suspensions

The kinetics of the photocatalytic degradation of 10 different dichlorophenols and dichloroanilines have been investigated experimentally and theoretically. With the intention of finding certain molecular indices in order to determine the degradation rates of aromatic pollutants, geometry optimizations of the compounds have been performed with the semiempirical PM3 method. The molecular orbital calculations have been carried out by an SCF method using the RHF formalism. The correlations between the apparent first-order rate constants and the calculated molecular properties of the compounds have been examined. Four different structure–activity relationships have been developed expressing the logarithms of the rate constants in terms of the Hammett constants, electron densities of the substituents, the coefficients and the energies of the highest occupied molecular orbitals HOMO, and 1-octanol/water partition coefficients log?K _OW.     

瞬态吸收光谱技术研究4-氯酚水相降解的微观反应

利用瞬态吸收光谱技术进行了不同条件下４－氯酚水溶液的电子脉冲辐解,分别研究了体系中瞬时出现的·ＯＨ,Ｈ和水合电子等活性粒子与溶质的反应．对瞬态吸收光谱中的主要吸收峰做了归属,得到了ＯＨ－ａｄｄｕｃｔ,Ｈ－ａｄｄｕｔ和氯代酚氧基等一系列中间产物,并初步研究了这些瞬态物种的生长、衰减行为和可能的反应机理,得出了一些微观反应的速率常数．     

Toxicity of substituted benzaldehydes to photobacterium phosphoreum and quantitative structure‐activity relationship

Acute toxicities (15min‐EC₅₀) of 21 substituted benzaldehydes to Photobacterium phosphoreum were determined. A quantitative structure‐activity relationship (QSAR) was developed using molecular connectivity indices and quantum chemical parameters, which show that the toxicity is influenced mainly by the difference of the simple and valence‐corrected fourth path molecular connectivity, polarizability, dipole moment, and the most negative net atomic charge on an atom. This study further shows that benzaldehydes are reactive chemicals, which exhibit bioreactive toxicity.     

部分水溶性偶氮染料的光催化降解研究

本研究以高压汞灯为光源,系统地研究了１６种偶氮染料在水溶液中的ＴｉＯ２光催化降解。结果表明,这些偶氮染料的光解为一级动力学反应,采用ＴｉＯ２光催化降解方法处理所研究的偶氮染料是可行的,并初步探讨了染料的结构与光解反应表观速率常数之间的关系。     

二氧化硫与1—己烯的光化学反应动力学

利用ＧＣ／ＭＳ方法研究了ＳＯ２与１－己烯在无氧和有氧体系中光化学反应动力学，确定了ＳＯ２与１－己烯光化学反应的级数，给出了２９３－３３３Ｋ温度范围内总的反应速度常数Ｋ，以及Ｋ与温度的关系、反应的活化能和指前因子。另外，对反应物己醛和２－己酮的生成反应速度常数及其活化能也进行了计算和讨论。     

Removal of pharmaceutical and personal care products by sequential ultraviolet and ozonation process in a full-scale wastewater treatment plant

The application of appropriate advanced treat- ment process in the municipal wastewater treatment plants （WWTPs） has become an important issue considering the elimination of emerging contaminants, such as pharma- ceutical and personal care products （PPCPs）. In the present study, the removal of 13 PPCPs belonging to different therapeutic classes by the sequential ultraviolet （UV） and ozonation process in a full-scale WWTP in Beijing was investigated over the course of ten months. Most of the target PPCPs were effectively removed, and the median removal efficiencies of individual PPCPs, ranging from -13% to 89%, were dependent on their reaction rate constants with molecular ozone. Noticeable fluctuation in the removal efficiencies of the same PPCPs was observed in different sampling campaigns. Nevertheless, the sequential UV and ozonation process still made a significant contribution to the total elimination of most PPCPs in the full-scale WWTP, by compensating for the poor or fluctuant removal performance of PPCPs by biologic treatment process.