A review on microfluidics in the detection of food pesticide residues

This paper briefly explains the food safety problems related to pesticide residues and introduces microfluidics technology as a pesticide residue detection method. Three mainstream microfluidic detection devices are detailed: one driven by liquid surface tension, one by motor siphon drive, and one by centrifugal force. The advantages and disadvantages of each are considered in an analysis of future trends in microfluidic technology for pesticide detection.     

微流控纸芯片在环境分析检测中的应用

近年来,微流控纸芯片由于低成本、便携化、检测快等优点,在需要快速检测的环境分析领域中展现出了巨大的应用前景.该综述从微流控纸芯片在环境分析中的应用角度,总结归纳了微流控纸芯片在环境分析中的最新研究进展,并展望了其在未来的发展趋势与挑战.论文内容引用150余篇源于科学引文索引(SCI)与中文核心期刊中的相关论文.该综述包...     

免疫分析技术在农药残留分析中的研究进展及在中药中的应用展望

中药材的农药残留问题一直是人们关注的重点,免疫分析技术作为一项特异性强、灵敏度高的快速分析检测技术,在实现中药材农药残留快速筛查方面发挥着重要作用.该文结合近年免疫分析相关研究进展,对不同的免疫分析技术在中药农药残留分析方面的应用、技术优势以及局限性进行总结分析,并对免疫分析技术的发展前景进行了展望,对免疫分析技术在农...     

碳量子点荧光探针的设计及其在农残检测中的应用进展

农药的长期、大量、不合理使用,对我国生态环境和农畜产品的安全生产及人体生命与健康构成了严重威胁。发展灵敏、高效的探针监测农药原体及其代谢产物对食品安全预警有重要意义。因此科研工作者致力于开发简单、高效的农残检测新策略。碳量子点作为一种新型荧光碳纳米材料,无毒无害,具有良好的稳定性及优越的光学性能,易于实现功能化,因此碳量子点荧光探针在农残检测方面极具应用潜力。该文对碳量子点荧光探针的研究进展进行综述,简述了碳量子点的特性及合成,重点介绍了碳量子点作为荧光探针在农残检测中的最新应用进展,并对其发展过程中尚待解决的问题进行总结,对未来发展方向进行展望。     

高分辨质谱技术在农药残留检测中的应用

农药残留检测是农产品中有害物质控制的重要组成部分,随着农药残留限量标准体系的发展完善,农药残留检测方法也在不断进步。近年来质谱技术发展迅速,已被广泛应用于农药残留检测领域,高分辨质谱由于具有较高的分辨率和质量精确度,在复杂基质的农药多残留高通量检测中发挥着越来越重要的作用。本文从高分辨质谱与液相色谱、气相色谱及其他分离模式联用等方面出发,简述了近5年来高分辨质谱在农药残留检测中的应用,对目前高分辨质谱在农药残留检测应用中发现的问题进行了讨论,并对其未来发展趋势进行展望。     

A review on continuous-flow microfluidic PCR in droplets: Advances,challenges and future

Significant advances have been made in developing microfluidic polymerase chain reaction (PCR) devices in the last two decades. More recently, microfluidic microdroplet technology has been exploited to perform PCR in droplets because of its unique features. For example, it can prevent crossover contamination and PCR inhibition, is suitable for single-cell and single-molecule analyses, and has the potential for system integration and automation. This review will therefore focus on recent developments on droplet-based continuous-flow microfluidic PCR, and the major research challenges. This paper will also discuss a new way of on-chip flow control and a rational design simulation tool, which are required to underpin fully integrated and automated droplet-based microfluidic systems. We will conclude with a scientific speculation of future autonomous scientific discoveries enabled by microfluidic microdroplet technologies.     

分子印迹聚合物在极性农药残留检测中的应用进展

极性农药包括杀菌剂、除草剂、杀虫剂等,种类丰富,成本低廉,在农业中应用广泛,其滥用易导致水资源和土壤等环境污染,人类通过间接接触动植物源性食品和环境中的极性农药残留也增加了农药暴露风险。极性农药的物理化学性质差异大,通常痕量存在于食品和环境样品等复杂基质中,这对其准确检测分析带来了挑战。分子印迹聚合物(MIPs)作为一种人工制备的选择性吸附剂,具有与模板分子在空间结构、大小尺寸和功能基团上互补的特定识别位点,且易于制备,成本低,稳定性好,重复利用率高,已被广泛用于极性农药残留的样品前处理和分析检测中。MIPs可以作为固相萃取(SPE)、固相微萃取(SPME)、磁性固相萃取(MSPE)、搅拌棒固相萃取(SBSE)等前处理方法的吸附剂,还可用于制备光、电、化学传感器,作为质谱检测的离子源基底和拉曼光谱的增强基底。目前针对极性农药残留的检测,已有许多研究报道了多种分子印迹材料用于高效分离分析各种复杂基质中的极性农药残留,但未见此方面的综述报道。该文首先介绍了MIPs的印迹策略、聚合策略,并针对传统MIPs制备和应用中存在的问题,简要概括了一些新型的分子印迹策略和制备技术;然后从极性农药残留分析的角度出发,总结归纳了分子印迹材料近年来特别是近5年来在各种极性农药残留(包括新烟碱类、有机磷类、三嗪类、唑类、脲类等)检测中的应用,并针对现存问题展望了其未来的发展方向和趋势。     

Current development of microfluidic immunosensing approaches for mycotoxin detection via capillary electromigration and lateral flow technology

Mycotoxin contamination in the food chain has caused serious health issues in humans and animals. Thus, a rapid on-site and lab-independent detection method for mycotoxins, such as aflatoxins (AFTs), is desirable. Microfluidic chip based immunosensor technology is one of the most promising methods for fast mycotoxin assays. In this review, we cover the major microfluidic immunosensors used for mycotoxin analysis, via flow-through (capillary electromigration) and lateral flow technology. Sample preparation from different matrices of agricultural products and foodstuffs is summarized. The choice of materials, fabrication strategies, and detection methods for microfluidic immunosensors are further discussed in detail. The sensors application in mycotoxin determination is also outlined. Finally, future challenges and opportunities are discussed.     

微流控芯片-质谱联用细胞分析方法研究进展

细胞分析和代谢物分析在生物系统中起着重要的作用。微流控技术已成为细胞生物学研究的一个重要工具。该文总结了最近微流控芯片在细胞和代谢物的分析,尤其是微流控芯片与质谱联用技术的应用。同时对微流控芯片上细胞的生物学研究提出了见解和看法,希望能对感兴趣者提供一些启发。     

有机磷类农药残留检测技术的应用

作为一类高效、广谱的杀虫剂,有机磷类农药被广泛用于农作物病虫防治领域,但它产生的危害也不容忽视。论述了近年来国内外有机磷类农药检测技术的应用,比较各种方法的优缺点,为农药残留检测的应用提供了参考。     

单核苷酸多态性电化学生物传感检测研究进展

作为第3代遗传标记物,单核苷酸多态性分析在实现遗传疾病的早期医学诊断以及发病机理研究等方面具有非常重要的意义,已成为当今分析化学和生命科学研究的热点领域。电化学生物传感器因具有灵敏、检测装置轻便价廉且易于微型化、自动化等优点,近年在单核苷酸多态性检测分析中得到了迅速的发展。该文简述了单核苷酸多态性生物传感检测的识别原理、电化学生物传感检测方法及信号放大策略,综述了近年来的研究进展,并对未来的发展方向作了展望。     

Microfluidic device embedding electrodes for dielectrophoretic manipulation of cells‐A review

Microfluidic device embedding electrodes realizes cell manipulation with the help of dielectrophoresis. Cell manipulation is an important technology for cell sorting and cell population purification. Till now, the theory of dielectrophoresis has been greatly developed. Microfluidic devices with various arrangements of electrodes have been reported from the beginning of the single non‐uniform electric field to the later multiple physical fields. This paper reviews the research status of microfluidic device embedding electrodes for cell manipulation based on dielectrophoresis. Firstly, the working principle of dielectrophoresis is explained. Next, cell manipulation approaches based on dielectrophoresis are introduced. Then, different types of electrode arrangements in the microfluidic device for cell manipulation are discussed, including planar, multilayered and microarray dot electrodes. Finally, the future development trend of the dielectrophoresis with the help of microfluidic devices is prospected. With the rapid development of microfluidic technology, in the near future, high precision, high throughput, high efficiency, multifunctional, portable, economical and practical microfluidic dielectrophoresis will be widely used in the fields of biology, medicine, agriculture and so on.     

Review: Aptamers in microfluidic chips

This review, covering reports published from 2002 to August 2010, shows how aptamers have made significant contributions in the improvements of microfluidic chips for affinity extraction, separations and detections. Furthermore, microfluidic chip methods for studying aptamer-target interactions and performing aptamer selections have also been summarized. Accordingly, research vacancies and future development trends in these areas are discussed.     

水中有机农药分析方法研究进展

随着我国农、林、牧及养殖业的发展,有机农药的使用量显著增加。自然水体中有机农药污染程度日益严重,已对水生生态和人类健康造成严重影响和潜在威胁。为深入了解水中有机农药污染物的检测方法,该文全面系统地对水中有机农药分析方法(预处理方法和检测方法)的原理及优缺点进行了综述,并对其发展方向及趋势进行了展望。通过总结和对比分析,气相色谱和液相色谱法被认为是目前检测水中有机农药残留最有效的方法。该文可为水中有机农药污染物的检测方法选择提供重要参考。     

串联质谱法在农药残留分析中的应用

农药残留问题已经成为全球关注的热点问题,尤其是农产品和食品中的农药残留更受到各国政府和公众的普遍关注。快速、准确、灵敏的农药残留分析和检测技术已经成为保障食品安全的有效手段,是当前农药残留分析研究和发展的方向。1983年,McLafferty等发明了串联质谱技术(MS-MS),目前已发展成为一种成熟的技术,在许多研究领域发挥了巨大作用。同样,在农药残留分析领域,串联质谱技术也越来越体现出其定性准确、排除干扰能力强以及灵敏度高的特点。     

Recent advances in single-molecule detection on micro- and nano-fluidic devices

Single-molecule detection (SMD) allows static and dynamic heterogeneities from seemingly equal molecules to be revealed in the studies of molecular structures and intra- and inter-molecular interactions. Micro- and nanometer-sized structures, including channels, chambers, droplets, etc., in microfluidic and nanofluidic devices allow diffusion-controlled reactions to be accelerated and provide high signal-to-noise ratio for optical signals. These two active research frontiers have been combined to provide unprecedented capabilities for chemical and biological studies. This review summarizes the advances of SMD performed on microfluidic and nanofluidic devices published in the past five years. The latest developments on optical SMD methods, microfluidic SMD platforms, and on-chip SMD applications are discussed herein and future development directions are also envisioned.     

Current development in microfluidic immunosensing chip

This review accounts for the current development in microfluidic immunosensing chips. The basic knowledge of immunoassay in relation to its microfluidic material substrate, fluid handling and detection mode are briefly discussed. Here, we mainly focused on the surface modification, antibody immobilization, detection, signal enhancement and multiple analyte sensing. Some of the clinically important currently implemented on the microfluidic immunoassay chips are C-reactive protein (CRP), prostate specific antigen (PSA), ferritin, vascular endothelial growth factor (VEGF), myoglobin (Myo), cardiac troponin T (cTnT), cardiac troponin I (cTnI), and creatine kinase-cardiac muscle isoform (CK-MB). The emerging microfludic immunosensor technology may be a promising prospect that can propel the improvement of clinical and medical diagnosis.     

免疫亲和柱在兽药残留检测应用中的研究进展

免疫亲和柱(IAC)是一种有效的兽药残留检测净化技术,可以简化样品净化过程并且提高待测物的提取效率,近几年在兽药残留检测中得到广泛应用,并表现出良好的发展前景。本文简要叙述了IAC的原理、制备过程以及在各种抗微生物类兽药检测中的应用,就IAC对目前已研制出的抗微生物药的残留检测及净化效果进行综述,并展望了IAC在未来兽药残留检测应用中的发展趋势,为研究者提供参考和研发思路。     

微流控芯片技术在生殖研究中的进展

生殖是生物体最基本特征之一，是物种得以延续和进化的保证。近年来，微流控芯片系统得到了迅猛发展，技术也逐渐成熟，具有良好的应用前景。在生殖研究中，微流控技术具有以下优势：微管道的形状和尺寸可以灵活设计，从而更好地模拟生理环境；微流控芯片对样品的消耗量低；微流控技术具有很高的集成性。微流控技术已被应用到精子活力评价与筛选、精子的化学趋向性筛选、卵丘细胞去除、透明带移除、卵细胞定位与筛选、受精过程、早期胚胎培养以及生殖器官模拟等各个方面。该文着重介绍近几年基于微流控技术生殖研究的最新进展，并对其应用前景进行展望。     

微流控芯片技术-斑马鱼模型在药物筛选研究中的进展

斑马鱼作为一种重要的生物模型,为人类重大疾病的研究提供了更多的可行手段。然而传统的基于斑马鱼模型的研究常使用微孔板、烧杯或培养皿,方法通量及自动化程度低,且无法准确快速地提供药物刺激。微流控芯片作为一项新兴技术,以其独特的优势受到诸多科学工作者的青睐。该文对斑马鱼疾病模型的构建、基于微流控芯片和斑马鱼模型在药物筛选中的研究进展作了详细介绍和评价,并展望了其应用前景。