固相微萃取技术在环境监测分析中的应用进展

样品前处理是整个样品分析过程中的关键一环,其目的在于减少杂质对待测物的干扰及对目标物进行富集。固相微萃取技术是集采样、萃取、富集、进样于一体的样品前处理新技术。近年来,固相微萃取技术在环境污染物监测分析领域得到了广泛应用,该文章系统地综述了固相微萃取技术在不同环境基质(水体、大气、土壤及沉积物)预处理的方法,比较了不同类型涂层材料(如纳米材料、离子液体等)与装置形式(如内部冷却固相微萃取、箭形固相微萃取等)的优缺点及应用范围。针对现阶段固相微萃取技术应用于不同环境基质中存在的问题和不足,提出进一步研究的方向。     

固相微萃取技术的现状与进展

固相微萃取是基于萃取涂层与样品之间的吸附（吸着）一解吸平衡而建立起来的集进样、萃取、浓缩功能于一体的新颖样品制备技术。具有操作简单、方便、样品需用量小、特别适合于现场分析等特点．文中对固相微萃取的装置、涂层材料、涂渍技术、萃取方式、与分析仪器的联用、萃取基本理论和定量依据及其在环境样品分析、临床和法医分析、食品分析等样品预处理中的应用发展方向进行了探讨．     

萃取技术在环境样品预处理中的应用及发展

对萃取技术包括传统技术以及新近发展起来的如固相萃取、固相微萃取、膜萃取、超临界流体萃取、微波萃取等技术在环境样品预处理方面的运用进行综述,分析各自的优缺点以及发展前景.     

痕量有机氯化合物分析中的样品预处理方法

近些年来，痕量有机氯化合物分析中，各种样品预处理技术得到了迅速发展，文章介绍了一些样品预处理方法的原理和最新进展，阐述了索氏提取，超临界流体萃取，微波萃取，固相萃取等几种富集方法的原理，特点，性能及应用，论述了吸附柱层析法，凝胶渗透色谱，高效液相色谱等样品净化技术的特点和应用。     

水中异味物质分析方法研究进展

介绍了水体异味现象及异味物质组分,综述了闭环捕集、吹扫捕集、液液萃取、固相萃取、固相微萃取、搅拌棒吸附萃取等样品前处理技术。指出气相色谱/质谱联用具有很强的分离和定性定量能力,与上述前处理技术联用是目前水体异味物质分析应用最广泛的方法。     

固相萃取光度法测定食品中挥发酚的研究

研究了用Waters Sep-Park-C18固相萃小柱固相萃取测定食品中挥发酚的方法，用自动水蒸汽蒸馏仪蒸馏分离出食品中的挥发酚，然后用4－氨基安替比林显色，显色产物可用Waters Sep-Park-C18固相萃小柱萃取，用乙醇洗脱后用分光光度法测定，该方法污染小，操作简便，便于样品批量处理，用于食品样品中挥发酚的测定，结果令人满意。     

固相微萃取-气相色谱在水中有机污染物测定中的应用

固相微萃取技术是一种新型的无溶剂的样品前处理方法,集取样、萃取、富集、进样于一体,具有无溶剂、可直接进样、操作简便快捷、灵敏的特点。简述了固相微萃取技术原理,综述了SPME与GC联用在水中有机污染物测定中的应用。具体介绍了该技术在苯系物、酚类化合物、多环芳烃、有机氯化物及其它有机污染物分析中的应用,并提出了该技术的发展趋势及应用展望。     

固相微萃取分析条件的优化

主要介绍了固相微萃取作为一种样品前处理技术，如何对影响其分配系数的各因素，如：萃取头的选择、萃取方式、萃取温度等进行优化选择，从而提高方法灵敏度及回收率。     

环境中多氯联苯(PCBs)的分析方法研究

探讨了环境中多氯联苯(PCBs)来源特性和分析检测方法。讨论了目前较为常用的样品前处理方法,如溶剂萃取法、固相萃取法、固相微萃取法等,常见的检测方法包括化学分析法和生物分析法,并对PCBs分析检测的发展前景进行了展望。     

固相微萃取-毛细管气相色谱法快速分析水中酚类化合物

固相微萃取是一种快速、简便、集萃取浓缩进样于一体的样品前处理技术,具有分析时间短、灵敏度高、无需有机溶剂的优点.本工作用固相微萃取富集水中酚类化合物,毛细管气相色谱分离分析,整个分析过程只需45min,检出限可达1.0～10.0μg/L,已用于地面水、海水、工厂废水中酚类化合物含量的测定.     

全自动Ｃ１８膜萃取－气相色谱法测定水中卤代醚

使用全自动固相萃取仪、C18膜-毛细管气相色谱-电子捕获检测器的分析方法检测水中具有致癌性的卤代醚，回收率范围71．8％～126％，检出限0．5～1．5μg／L，与EPA611相比，更加快速、准确，能够满足我国饮用水和废水的分析要求。     

我国水环境有机物分析前处理技术

介绍了我国水环境有机物分析中常用的前处理技术,包括液液萃取、树脂吸附、固相萃取、固相微萃取、液膜萃取、半透膜被动采样、顶空、吹扫-捕集等,归纳了各种方法的原理、应用及优缺点,并对环境中有机污染物前处理技术的发展方向进行了展望。     

气相色谱法测定苯酚生产废水中芳香族化合物

建立了用气相色谱法同时测定苯酚生产废水中异丙苯、α-甲基苯乙烯、α-甲基苯甲醇、2-苯基-2-丙醇、苯酚、苯乙酮、2-苯基丙醛等7种芳香族有毒有机污染物的定量分析方法。采用二氯甲烷对水样进行萃取后进行分析测定,气相色谱条件:DB-WAX型色谱柱,FID检测器,程序升温,进样量1μL。方法的检出限、精密度、回收率实验表明,该方法对苯酚生产废水中各污染物组分具有较好的分离效果,对7种物质的检测限均低于0.05 mg/L,5次测定的相对标准偏差小于5%,实际水样的加标回收率大于97%。     

离子色谱法测定土壤中草甘膦的提取溶液选择

以辽宁棕壤等10种土壤为样品,探讨了水和p H值=9.00～14.00的氢氧化钠(Na OH)作为提取液对草甘膦分析的影响。结果表明,以水为提取液,仅石灰性紫色土和灰钙土能获得较高的回收率,其他所测土壤尤其是p H值8.00的土壤其回收率较低,提取效果受土壤理化性质影响明显。以p H值=9.00～14.00的Na OH为提取液,随着提取液p H值的提高,所测土壤的回收率均随之提高,达到一定的p H值后,回收率随之提高不明显,但干扰会增多。当已知土壤相关理化性质时,可以参考回收率相关性分析选择合适的提取液。     

连续流动分析在水质监测中的应用

连续流动分析技术具有分析速度快、准确度和精密度高、操作简单、通用性强、样品和试剂消耗量少等一系列优点。灵活运用连续流动分析技术可对大多数水性样品如水和废水、土壤(或固体废弃物)提取液、饮料等进行分析。本文中着重介绍了氨氮、硝酸盐氮/亚硝酸盐氮、挥发酚以及总氰化物等几个连续流动分析在水质监测中的应用实例。     

超高效液相色谱法测定生活饮用水中的溴氰菊酯

采用反相超高效液相色谱法测定生活饮用水中的溴氰菊酯,并用于实际样品的分析.该方法用二氯甲烷为萃取剂,以甲醇—水（85 /15,V/V）作为流动相,紫外检测器的检测波长为215 nm.该方法在6 min之内可完成生活饮用水中溴氰菊酯的分离及检测,结果表明,该方法线性范围、精密度、加标回收率均符合相关技术要求,适用于水样中溴氰菊酯的测定.     

Solid-phase extraction using hierarchical organosilicates for enhanced detection of nitroenergetic targets

A novel porous organosilicate material was evaluated for application as a solid phase extraction sorbent for preconcentration of nitroenergetic targets from aqueous solution prior to HPLC analysis. The performance of the sorbent in spiked deionized water, groundwater, and surface water was evaluated. Targets considered included 2,4,6-trinitrotoluene, 2,4-dinitrotoluene, RDX, HMX, and nitroglycerin. The sorbent was shown to provide improved performance over Sep-Pak RDX. The impact of complex matrices on target preconcentration by the sorbent was also found to be less dramatic than that observed for LiChrolut EN. The impact of changes in pH on target preconcentration was considered. Aqueous soil extracts generated from samples collected at sites of ordnance testing were also used to evaluate the materials. The results presented here demonstrate the potential of this novel sorbent for application as a solid phase extraction material for the preconcentration of nitroenergetic targets from aqueous solutions.     

磁性分散固相萃取-气相色谱法测定水中氯苯类化合物

采用磁性分散固相萃取技术富集水中氯苯类化合物，用气相色谱法测定，并对萃取剂的用量、萃取时间、解吸溶剂、氯化钠加入量等条件进行优化。试验表明，方法在0．001 mg/L～2．50 mg/L 范围内，氯苯类化合物各组分线性良好，方法检出限在0．600μg/L～5．00μg/L范围内。地表水实际水样的加标回收率为83．1％～93．4％，RSD为4．8％～7．3％。     

Soil solution extraction techniques for microbial ecotoxicity testing: a comparative evaluation

The suitability of two different techniques (centrifugation and Rhizon sampler) for obtaining the interstitial pore water of soil (soil solution), integral to the ecotoxicity assessment of metal contaminated soil, were investigated by combining chemical analyses and a luminescence-based microbial biosensor. Two different techniques, centrifugation and Rhizon sampler, were used to extract the soil solution from Insch (a loamy sand) and Boyndie (a sandy loam) soils, which had been amended with different concentrations of Zn and Cd. The concentrations of dissolved organic carbon (DOC), major anions (F- , CI-, NO3, SO4(2-)) and major cations (K+, Mg2+, Ca2+) in the soil solutions varied depending on the extraction technique used. Overall, the concentrations of Zn and Cd were significantly higher in the soil solution extracted using the centrifugation technique compared with that extracted using the Rhizon sampler technique. Furthermore, the differences observed between the two extraction techniques depended on the type of soil from which the solution was being extracted. The luminescence-based biosensor Escherichia coli HB101 pUCD607 was shown to respond to the free metal concentrations in the soil solutions and showed that different toxicities were associated with each soil, depending on the technique used to extract the soil solution. This study highlights the need to characterise the type of extraction technique used to obtain the soil solution for ecotoxicity testing in order that a representative ecotoxicity assessment can be carried out.     

Volatile Organic Compounds: Sampling Methods and Their Worldwide Profile in Ambient Air

The atmosphere is a particularly difficult analytical system because of the very low levels of substances to be analysed, sharp variations in pollutant levels with time and location, differences in wind, temperature and humidity. This makes the selection of an efficient sampling technique for air analysis a key step to reliable results. Generally, methods for volatile organic compounds sampling include collection of the whole air or preconcentration of samples on adsorbents. All the methods vary from each other according to the sampling technique, type of sorbent, method of extraction and identification technique. In this review paper we discuss various important aspects for sampling of volatile organic compounds by the widely used and advanced sampling methods. Characteristics of various adsorbents used for VOCs sampling are also described. Furthermore, this paper makes an effort to comprehensively review the concentration levels of volatile organic compounds along with the methodology used for analysis, in major cities of the world.