Recent advances in the applications of CE to forensic sciences (2001-2004)

The present article reviews the applications of CE in forensic science covering the period from 2001 until the first part of 2005. The overview includes the most relevant examples of analytical applications of capillary electrophoretic and electrokinetic techniques in the following fields: (i) Forensic drugs and poisons, (ii) explosive analysis and gunshot residues, (iii) small ions of forensic interest, (iv) forensic DNA and RNA analysis, (v) proteins of forensic interest, and (vi) ink analysis.     

Recent advances in the applications of CE to forensic sciences (2005-2007)

The present article reviews the applications of CE in forensic science covering the period from 2005 until the first part of 2007. The overview includes the most relevant examples of analytical applications of capillary electrophoretic and electrokinetic techniques in the following fields: (i) forensic drugs, toxicants and dyes, (ii) small ions of forensic interest (iii) explosives, (iv) forensic DNA, and (v) other biopolymers of forensic interest.     

Recent developments in CE and CEC of peptides (2009-2011)

The review brings a comprehensive survey of the recent developments of high-performance electroseparation methods in capillary and microchip formats: zone electrophoresis, isotachophoresis, isoelectric focusing, affinity electrophoresis, electrokinetic chromatography and electrochromatography. Applications of these techniques to analysis, isolation, purification and physicochemical and biochemical characterization of peptides are described. Advances in the investigation of electromigration properties of peptides, and in the methodology of their analysis, such as sample preparation, adsorption suppression, EOF control and detection, are presented. New developments, in particular, CE and CEC modes are reported and several types of their applications to peptide analysis are described: conventional qualitative and quantitative analysis, determination in complex (bio)matrices, monitoring of chemical and enzymatical reactions and physical changes, amino acid, sequence and chiral analysis, and peptide mapping of proteins. Some micropreparative peptide separations are shown and capabilities of CE and CEC techniques to provide relevant physicochemical characteristics of peptides are demonstrated.     

Recent advances in CE and CEC of pollutants

Recent advances in CE and CEC separation, detection and sample preparation/preconcentration methodologies, for the determination of a variety of compounds having current or potential environmental relevance, have been overviewed. The reviewed literature has illustrated the wide range of CE applications available, indicating a continuing interest in CE and CEC in the environmental field. New developments in chip-based CE systems are also discussed.     

Recent advances in the applications of forensic science to fire debris analysis

The forensic discipline of ignitable liquid and fire debris analysis is rapidly changing. Refinements in existing methods as well as development of new techniques are changing the routine methods of analysis. Optimization of existing extraction techniques and research into novel methods of extracting debris have improved the recovery of ignitable liquids from debris samples. The application of highly specialized instrumentation to problems of sensitivity and matrix interference has resulted in new ways of performing chemical analyses, allowing for improved limits of detection. Preliminary research in novel approaches to ignitable liquid comparisons is being evaluated, with the hopes of providing more detailed information to the field investigators. Research into a variety of areas related to fire debris analysis is ongoing, and will continue to improve the quality of ignitable liquid residue analysis.     

CE of inorganic species--a review of methodological advancements over 2009-2010

This article is the seventh in a series examining biannually the methodological developments in the field of CE analysis of inorganic species and covers relevant documents published between January 2009 and December 2010. Following an analysis of the significant accomplishments that have impacted the field in two recent years, a survey of advances in general CE methodology is presented. Subsequently, several notable trends that can be perceived in this well-established field are discussed: the continuing rise of ME and consequent development of suitable detection techniques, most notably contactless conductivity detection, the constant pace of advances in speciation analysis, and an increase in non-analytical CE applications to study complexation and (bio)transformation reactions of metal analytes. A range of recently emerged multi-detection designs, ICP-MS interface devices, and separation systems, for which outpacing work has been conducted, are also brought into focus.     

Recent advances in the analysis of antibiotics by CE and CEC

This article reviews the most recent developments concerning the determination of antibiotics by CE and CEC. The most employed CE separation modes were CZE and MEKC although microemulsion electrokinetic capillary chromatoghraphy was also employed. For the first time, CE was coupled to MS that was applied as a specific and confirmatory detection technique for the analysis of antibiotics. The analytical characteristics of the developed methodologies as well as the different applications reported in the literature on this subject from June 2005 until May 2007 are included in this article. To give the most relevant information on this topic, the experimental conditions employed to achieve the analysis of antibiotics by CE and CEC are provided together with the main applications performed in the pharmaceutical, agrochemical, biological, food, and environmental fields, emphacizing sample preparation requirements needed in each case.     

Recent advances in the application of capillary electrophoresis to neuroscience

With fast separation times (seconds to minutes), minimal sample requirements (nanoliters to femtoliters), and excellent mass detection limits (femtomole to zeptomole), capillary electrophoresis (CE) is ideally suited for in vitro and in vivo sampling of neurological samples with a high degree of spatial resolution. Advances in extracellular fluid analysis employing improved microdialysis and push–pull perfusion sampling methodologies has enabled the resolution of neurotransmitters present in limited amounts using CE. Great progress has been made to resolve complex neuropeptides, amino acids, and biogenic amines in tissue and cell cultures. Finally, owing largely to the small volume sampling abilities of CE, investigations of single nerve cells, both invertebrate and mammalian, have been accomplished. These applications of CE to the advancement of neuroscience are presented.     

Recent advances in analysis of hazardous genotoxic impurities in pharmaceuticals by HPLC,GC, and CE

Nowadays, genotoxic impurities in pharmaceuticals at lower levels are of increasing concerns not only to pharmaceutical industries but also for the regulatory agencies due to their risks for human carcinogenesis and, thus, requiring manufacturers to pay extra attention for their analysis and control. The need to determine these impurities at trace levels, based on the threshold of toxicological and daily dose, taking into consideration the often reactive and labile nature of genotoxic impurities, which poses significant analytical challenges. Therefore, sensitive and sophisticated analytical methodologies are deemed necessary in order to be able to test and control genotoxic impurities in drug substances. This review demonstrates the approaches reported in the literature for the analysis of the hazardous genotoxic impurities and the strategies used to enhance the sensitivity such as using ion spray-mass spectrometry and the separation techniques for the analysis of such impurities.     

薄膜固相微萃取技术的应用进展

随着样品前处理方法的快速发展,薄膜固相微萃取（TFME）技术已经逐渐成为样品前处理领域的基础性研究课题,同时相关的联用方法也受到广泛关注。与其他样品前处理方法相比,TFME具有较高的表面积体积比,以及较大的有效萃取体积,因此可在提高灵敏度的同时减少萃取时间。TFME法结合其他样品分析方法可广泛用于违禁药物、爆炸物、有机农药、兽药等物质的分析中,同时在药物、食品、环境分析等领域有广泛的应用。该文概述了TFME技术的萃取原理及多样化的萃取器件,综述了TFME技术与多项不同分析仪器的联用技术,并展望其发展趋势。     

噻唑类化合物应用研究新进展

噻唑环是一类重要的含氮硫杂原子的五元芳杂环,其特殊的结构使得噻唑类化合物在化学、药学、生物学和材料科学等诸多领域具有广阔的应用前景,显示出巨大的开发价值,受到广泛关注.本文结合作者的研究工作,参考国内外近五年文献,系统地综述了噻唑类化合物在医药、农药、材料、生物染色剂和超分子化学领域应用研究进展.     

Recent advances in the development and application of microemulsion EKC

Microemulsion EKC (MEEKC) is an electrodriven separation technique. Separations are typically achieved using oil-in-water microemulsions, which are composed of nanometre-sized oil droplets suspended in an aqueous buffer. The droplets are stabilised by a surfactant and a cosurfactant. The novel use of water-in-oil microemulsions has also been investigated. This review summarises the advances in the development of MEEKC separations and also the different areas of application including determination of log P values, pharmaceutical applications, chiral analysis, natural products and bioanalytical separations and the use of new methods such as multiplexed MEEKC and high speed MEEKC. Recent applications (2004-2006) are tabulated for each area with microemulsion composition details.     

顶空气相色谱-质谱联用技术的应用进展

顶空分析作为一种无有机溶剂萃取的样品处理技术,通常与气相色谱-质谱（GC-MS）技术结合用来分析复杂基质中的挥发性有机物。顶空气相色谱-质谱（HS-GC-MS）技术具有快速、高效、环保、灵敏度高等特点,在常规分析中发挥着重要作用。该文简要概述了静态顶空、动态顶空、顶空固相微萃取分析以及GC-MS联用技术,并介绍了整个顶空分析系统的影响因素和优化过程。根据基质类型的分类,综述了HS-GC-MS在食品和饮料、环境、生物等样品中的应用实例。HS-GC-MS的研究非常活跃,不断出现新应用,在分析挥发性有机物方面具有广阔前景。     

Recent advances in the application of nanomaterials in enzymatic glucose sensors

Due to the critical role of glucose level in the diagnosis and treatment of diabetes, as well as the increasing number of diabetics, there is an overwhelming demand for developing glucose sensors. It is well acknowledged that these sensors, especially those based on glucose oxidase, have played an important role in blood glucose detection. Inspired by the attractive properties, nanomaterials, especially nanostructured carbon and metal/metal oxides, have been extensively explored to develop enzymatic glucose sensors with high sensitivity, fast response time, and satisfied stability. In this review, a brief history of glucose biosensors is firstly presented. Furthermore, we discuss the currently available fabrication possesses in the field of enzymatic glucose biosensors based on nanomaterials, focusing on the carbon-based, metal-based, and metal oxides-based nanocomposites. What is more, we discuss the challenges and attempt to give an outlook on the possible further developments.     

Recent advances in the application of nanocatalysts in C-N coupling reactions

The development of various methodologies for the formation of carbon-nitrogen bonds is one of the valuable tasks in the field of organic synthesis because the final products are extensively utilized in pharmaceuticals, biologically active compounds, and natural products. The utilization of nanosized metal catalysts with high surface energy, large surface-to-volume ratio, excellent thermal stability, and reactive morphology in C-N cross-coupling reactions has received considerable attention, in recent years. The excellent catalytic performance, the high yield of products, carrying out the reactions under relatively mild and ligand-free conditions, and less toxicity to the environment, recoverability, and reusability of catalysts for several times without a remarkable degradation in activity are advantages of these nanocatalysts. This review intends to summarize the latest progress in the fabrication of nanocatalysts and their applications in the construction of carbon-nitrogen bonds via cross-coupling reactions. Abundant nanocatalysts based on metal and metal oxide nanoparticles/complexes including copper, palladium, nickel, cobalt, silver, gold, zirconium, and zinc have successfully been applied in these reactions. Various aspects of the reactions, different strategies of fabrication of nanocatalysts, and their recyclability have been surveyed. Literature has been investigated from 2015 to 2021.     

Recent advances in the application of mass spectrometry in food-related analysis

A review is presented on recent applications of mass spectrometry (MS)-based techniques for the analysis of compounds of food concern. Substances discussed are naturally occurring compounds in food products such as lipids, oligosaccharides, proteins, vitamins, flavonoids and related substances, phenolic compounds and aroma compounds. Among xenobiotics, applications of MS techniques for the analysis of pesticides, drug residues, toxins, amines and migrants from packaging are overviewed. Advances in the analysis of trace metals of nutritional and toxicological interest by MS with inductively coupled plasma (ICP) source are presented. The main features of mass spectrometry combined with separation instruments are discussed in food-related analysis. Examples of mass spectrometry and tandem MS (MS-MS) are provided. The development and application of matrix-assisted laser desorption ionization (MALDI) and electrospray (ESI) to the analysis of peptides and proteins in food is discussed. This survey will attempt to cover the state-of-the-art up from 1999 to 2001.     

Recent advances in catalytic conversion of carbon dioxide to propiolic acids over coinage-metal-based catalysts

The conversion of inexpensive,available C1 feedstock of carbon dioxide (CO2) into value-added fine chemicals via homogeneous or heterogeneous catalysis has attr...     

Recent trends in the synthesis of carbazoles: an update

The carbazole nucleus is a predominant feature of a vast array of heterocyclic compounds. It occurs in naturally occurring alkaloids, optoelectronic materials, and anion-binding ligands. Due to their various applications, there have appeared a plethora of synthetic methods for the construction of carbazoles. In this update, we focus on the recent developments and studies related to the synthesis of carbazoles spanning the period 2008–2011. Particular emphasis is placed on the methods involving cycloadditions and transition metal-assisted intramolecular aminations.