石墨烯及其复合材料在样品前处理中的应用

样品前处理新技术与方法研究是现代分析化学的重要研究课题与发展方向之一。固相萃取是目前应用最为广泛的样品前处理技术,其技术核心是吸附材料,因此开发新型吸附材料是样品前处理领域的研究热点。石墨烯是一种新型碳纳米材料,由于其良好的物理化学性质,在短短几年内迅速成为众多学科的研究热点。其高比表面积、良好的化学稳定性和热稳定性使之在分离科学领域得到广泛的应用。本文系统综述了石墨烯及其复合材料在样品前处理中的应用研究,主要包括其作为固定相在固相萃取、固相微萃取、磁固相萃取等技术在环境、食品、生物等样品前处理中的应用。     

药毒物分析中磁性固相萃取技术的应用进展

磁性固相萃取是一种新型的样品前处理技术,具有萃取时间短、吸附能力强、有机溶剂使用量少、操作简单快捷等优点,已经广泛应用于样品的分离提纯.在简要介绍磁性固相萃取技术发展、材料制备的基础上,着重对国内外磁性固相萃取技术在药毒物分析方面的发展现状以及应用进展进行了综述,以期为法庭科学领域相关物证鉴定提供参考,为严厉打击相关违法犯罪活动提供科学理论与实践依据.     

碳纳米管在样品前处理中的应用

碳纳米管是一维碳基纳米材料,具有独特的管状结构、良好的化学稳定性、热稳定性和高比表面积.近年来,碳纳米管在有机小分子、金属离子和生物大分子分离富集方面得到了广泛的应用.本文综述了碳纳米管及功能化碳纳米管在固相萃取、固相微萃取、中空纤维膜保护固相微萃取和液膜萃取等样品前处理技术中的应用.     

固相基底电喷雾电离质谱的原理及应用

实际样品的直接质谱分析是质谱技术发展的重要趋势.固相基底电喷雾电离质谱是使用固相材料(如金属材料、多孔材料)承载样品进行电离的一类技术,可以直接分析各种形态的样品(如液态样品、黏性样品、固体样品、生物组织等),具有不同于传统毛细管电喷雾电离质谱的分析特性.近年来,固相基底电喷雾电离质谱受到越来越多的关注,并且已广泛地应用于生物、化学、药学以及食品等领域.本文着重介绍了几种典型固相基底电喷雾电离技术的原理及其应用,并且讨论了固相基底和溶剂在其中的作用以及固相基底电喷雾电离质的未来发展趋势.     

新型固相微萃取膜及其在分析沙土中梯恩梯的应用

本文用酰胺类化舍物和气相色谱固定液制备了一种新型固相微萃取膜，应用该类固相微萃取膜成功地分离了沙土中炸药梯恩梯，并利用气相色谱／质谱联用技术对分离后的样品进行了分析。     

石墨烯在样品前处理研究领域中的新进展

石墨烯作为一种新型碳纳米材料,由于其具有大的比表面积、良好的热稳定性和化学稳定性、较强的疏水性、易于进行化学修饰等优点,在材料、催化、吸附分离等诸多领域得到了广泛的应用。本文主要对近年来石墨烯在固相萃取、分散固相萃取、固相微萃取、搅拌棒吸附萃取和基质固相分散萃取等样品前处理领域的最新研究进展做了简要评述。     

生物检材中氯胺酮及其代谢物的分析方法研究进展

综述了生物检材中氯胺酮及其代谢物分析技术的进展,评述了液相萃取、固相萃取、固相微萃取、顶空固相微萃取、微波辅助萃取等技术在分析中的应用,以及薄层色谱、气相色谱、高效液相色谱、毛细管电泳及其联用检测技术、酶联免疫分析技术和太赫兹时域光谱等检测技术在分析生物检材中氯胺酮的优势和局限性,并展望了该领域研究的发展趋势.     

复杂样品的固相微萃取-直接质谱分析技术研究进展

常压离子化质谱分析技术由于具有无需样品预处理、操作简单、分析效率高等特点,现已在复杂样品的快速分析方面发挥了重要作用。但是,该技术在质谱分析时将样品基质和待测化合物同时进行电离,样品基质对目标化合物的质谱分析造成了严重干扰。为了解决这一问题,在质谱直接分析前先采用固相微萃取技术对复杂样品中的目标化合物进行富集或基质去除,可极大地提高待测化合物的质谱分析灵敏度。该文着重综述了近几年发展起来可直接与常压电离源相联用或可原位电离目标化合物的固相微萃取技术,介绍了它们的原理及在复杂样品分析领域的应用,展望了固相微萃取-直接质谱分析技术的发展趋势。     

新型固相微萃取膜的制备及其在生物检材中毒物提取的应用

用酰胺类化合物和气相色谱固定液制备了一种新型固相微萃取膜,对膜的性质、吸附解吸条件进行了研究;应用该类固相微萃取膜成功地分离了尿液中的吗啡、苯巴比妥以及血液中的敌敌畏,并利用气相色谱-质谱联用技术对分离后的样品进行了分析。     

食品中邻苯二甲酸酯类化合物的分析方法研究进展

邻苯二甲酸酯是应用最广泛的增塑剂,具有生殖、发育毒性及致癌性,是近年来食品污染的一个重要来源。该类化合物种类多、同系物和同分异构体性质接近、在基体中含量范围宽,高效样品前处理、高选择性分离和高灵敏检测、降低本底干扰等技术是食品中邻苯二甲酸酯类化合物准确测定面临的挑战。本文综述了液液萃取、液液微萃取、固相萃取、固相微萃取、基质固相萃取等传统及新型的提取与净化技术在食品样品分析中的应用,比较分析了气相色谱、液相色谱、串联质谱、高分辨质谱以及酶联免疫、离子迁移谱等快速检测技术的特点,并展望了发展趋势。     

Functionalization of luminescent cyclometalated iridium(III) polypyridine complexes with a fluorous moiety: photophysics, protein-binding, bioconjugation, and cellular uptake properties

A new class of luminescent cyclometalated iridium(III) polypyridine fluorous complexes has been designed; the fluorous pendant not only plays an important role in the photophysical and biological properties of the complexes, but also allows the facile isolation of biomolecules labeled with these complexes with fluorous solid-phase extraction (FSPE).     

Amide bond formation with a new fluorous carbodiimide: separation by reverse fluorous solid-phase extraction

A new fluorous carbodiimide is introduced along with a convenient procedure for amide coupling reactions. Reactions of acids and amines under standard conditions for carbodiimide couplings, followed by simple reverse fluorous solid-phase extraction (FSPE) over standard silica gel, provide the target amide products in good yields and purities. The use of HFE-7100 as a fluorous solvent is crucial for the success of the reverse FSPE.     

Fluorous scavenger for parallel preparation of tertiary sulfonamides leading to secondary amines

Alkylation of secondary sulfonamides by alkyl halides or alcohols (Mitsunobu reaction) is an efficient method for secondary amines preparation. However, its application to parallel chemistry is often difficult due to partial reaction. In this Letter, we propose a fluorous technique to bypass this problem. Thus, o-nitrobenzenesulfonamides were prepared and alkylated in parallel (Fukuyama method) with various alkyl halides or alcohols. Depending on the nature of the alkyl halide or alcohol, this step remained incomplete. A reactive fluorous alkyl iodide was then used to trap the unreacted sulfonamide allowing for a rapid and efficient fluorous solid-phase extraction (FSPE). Some examples of the isolated tertiary sulfonamides were converted in parallel to the corresponding secondary amines with good purity.     

Fluorous dienophiles are powerful diene scavengers in Diels-Alder reactions

[reaction: see text] Three fluorous dienophiles have been synthesized, and their value in scavenging an excess diene after Diels-Alder reactions is shown. The resulting fluorous derivatives are separated by solid-phase extraction on fluorous silica gel (FSPE). The fluorous [1,2,4]triazoline-3,5-dione 10 reacted with most dienes within seconds or minutes.     

Recyclable benzyl-type fluorous tags: Preparation and application in oligosaccharide synthesis

We herein described the design, synthesis and application of two recyclable benzyl-type fluorous tags with double fluorous chains. The benzyl-type fluorous tags were prepared in 3 steps from a commercially available fluorous alcohol. The glycosylation of the benzyl-type tags with imidate donors proceeded smoothly to provide the corresponding fluorous-tagged carbohydrates in good to excellent yields, which were readily purified by fluorous solid-phase extraction(FSPE). Efficient removal of the tags from tagtethered carbohydrates were conducted under the common catalytic hydrogenation condition and the initial benzyl-type fluorous tags could be regenerated [5_TD$IF]via a 2-step simple procedure in 69%–93% yields.The utility of the new benzyl-fluorous tag was demonstrated [7_TD$IF]via the FSPE-assisted synthesis of oligosaccharides Gb3.     

Mono- vs. di-fluorous-tagged glucosamines for iterative oligosaccharide synthesis

Fluorous-tagged protecting groups are attractive tools for elongating carbohydrate chains in oligosaccharide synthesis. To eliminate the accumulation of failed sequences during automated oligosaccharide synthesis conditions, an additional C₈F₁₇ ester derived protecting group was attached to the glycosyl donor to better retain the desired doubly tagged glycosylation product on fluorous solid-phase extraction (FSPE) cartridges. Initial studies show that the double-fluorous-tagging strategy offers a robust enough separation using a commercial FSPE cartridge using simple gravity filtration to separate the desired product from the singly fluorous-tagged starting materials and their decomposition products. In addition, removal of the fluorous acetate and its by-products after sodium methoxide treatment and neutralization required only dissolution of the desired sugar in toluene and subsequent removal of the toluene layer from the denser fluorous by-products.     

An asymmetric, SmI2-mediated approach to γ-butyrolactones using a new, fluorous-tagged auxiliary

A new, fluorous-tagged chiral auxiliary has been developed for the asymmetric, SmI₂-mediated coupling of aldehydes and α,β-unsaturated esters. γ-Butyrolactones are obtained in moderate to good isolated yield and in high enantiomeric excess. The fluorous tag allows the auxiliary to be conveniently recovered by fluorous solid-phase extraction (FSPE) and reused.     

Synthesis of fluorous tags for incorporation of reducing sugars into a quantitative microarray platform

Carbohydrate microarrays can map out key interactions of carbohydrates and proteins in a high-throughput manner, but require the inclusion of a range of sugars for their optimal use. Here we present the synthesis and use of a new hydroxylamine-modified fluorous tag that allows the facile incorporation of reducing sugars into a noncovalent fluorous-based microarray after simple purification by fluorous solid-phase extraction (FSPE). The microarray supports quantitative screening against carbohydrate-binding proteins.     

Oligosaccharide synthesis in microreactors

Described is the combination of microreactors and fluorous phase chemistry to assemble oligosaccharides. The synthesis of a beta-(1-->6) linked D-glucopyranoside homotetramer serves to illustrate this approach. Glycosylations employing a Fmoc-protected glucosyl phosphate building block were performed in a silicon-based micro-structured device to optimize reaction conditions and for reaction scale-up. A perfluorinated linker at the reducing end of the oligosaccharides allowed for purification by fluorous solid-phase extraction (FSPE) and further functionalization.     

Catalytic enantioselective cyclopropanation of allylic alcohols using recyclable fluorous disulfonamide ligand

Cyclopropanation of allylic alcohols with Et₂Zn and CH₂I₂ in the presence of a catalytic amount of fluorous disulfonamide 3 afforded the corresponding cyclopropylmethanols in 69-96% yield with 49-83% ee. The fluorous ligand 3 was readily recovered from the reaction mixture by the fluorous solid-phase extraction (FSPE) and could be reused without a significant loss of the catalytic activity and enantioselectivity.