金纳米粒子在重金属离子检测方面的应用研究

近年来,贵金属纳米材料由于其具有独特的光学性质、稳定性、生物相容性和自身的结构特性等优点,被广泛用于重金属检测领域。总结了近年来金纳米粒子在重金属离子检测方面的研究现状,最后对贵金属纳米材料在重金属离子检测中的发展前景进行了展望。     

纳米材料修饰电极在重金属离子检测中的应用

本文介绍了近年来纳米材料修饰电极在重金属离子检测中的研究现状,分析了这些修饰电极的特点,重点阐述了纳米材料在重金属离子检测中的重要作用,列举了一些纳米材料修饰电极在重金属离子检测中的应用,最后对纳米材料修饰电极用于重金属离子的检测研究进行了简要评述和展望。     

基于生物敏感界面对重金属离子的检测研究进展

介绍了近年来重金属离子检测的研究现状,综述了电化学生物传感器在重金属离子检测中的应用及其在检测灵敏度、选择性、响应速度、易于操作与实时在线检测方面的优点,阐述了基于生物敏感界面构建的电化学生物传感器在重金属离子检测中的重要作用。分类讨论了国内外一些典型的特异性识别重金属的生物受体,如核酸类,蛋白质类有氨基酸、酶、抗原抗体,细胞微生物等用于构建敏感界面而开发的生物传感器在重金属离子检测领域的进展与成果,以及在构建敏感界面的过程中各种新型纳米材料如金属纳米粒子、碳纳米材料、纳米复合材料等的应用对传感器检测效果的影响。最后结合生物传感器的现状及相关学科的发展,展望了电化学生物传感器在重金属离子检测领域的发展方向。     

基于纳米材料自组装的传感器在生化分析中的应用研究进展

纳米材料可以通过自组装技术可控地形成具有不同空间结构的材料,该技术使其及其自组装体在多种生化物质（如蛋白质、多肽、DNA等）和金属离子的超灵敏检测中具有重要应用。本文对基于半导体量子点、贵金属纳米材料和碳基纳米材料自组装体系的传感器在生化分析中的应用进行了总结。     

贵金属多孔纳米结构的模板法制备及生物检测应用

贵金属多孔纳米材料是一类非常重要的新型多功能纳米材料,其具有独特的空心内部、多孔的外壁以及可调的形貌等,表现出优异的光、电、催化等特性。调制贵金属多孔纳米材料的尺寸、形状、排列和空间取向等对促进其在拉曼光谱、生物传感等方面的应用至关重要。模板法是利用与目标产物的纳米尺度特征相匹配的预制结构来指导纳米材料的合成,可以制备出其他方法难以制备的新型多孔纳米结构材料。基于模板的多样性,能够便捷的调节多孔贵金属的孔径、尺寸和组分,充分的开发贵金属纳米结构的特性。本文着重介绍了贵金属多孔纳米材料的类型和调控这些纳米结构的各种模板方法,分析了各种制备方法的优势和不足,并简要综述了贵金属多孔纳米结构在生物检测方面的一些应用进展。     

纳米材料在重金属离子分离富集中的应用

综述了纳米材料(包括氧化物、表面修饰氧化物、磁性氧化物、碳纳米管等)在重金属离子分离富集中的应用研究(引用文献63篇)。     

贵金属基纳米酶的研究进展

贵金属纳米材料在纳米尺度具有独特的光学、 电学性质及优异的催化性能, 是一类重要的功能纳米材料. 基于贵金属材料的纳米酶研究是贵金属纳米材料在生物医学领域的一个前沿研究方向. 贵金属基纳米酶具有特殊的光学性质、 较好的化学稳定性、 可调控的类酶活性及良好的生物相容性, 是目前纳米生物医学领域的热点研究材料. 本文总结了贵金属基纳米酶的活性种类、 活性机理、 活性调控以及在生物医学等领域的潜在应用.     

电化学传感技术在氯酚检测中应用的研究进展

综述了电化学传感技术在氯酚检测中应用的研究进展,主要对氯酚化合物电化学传感检测中电极修饰材料(贵金属纳米材料、碳纳米材料、吸附材料以及金属氧化物材料等)和电化学传感分析检测氯酚的方法进行了介绍,并对电化学传感器在复杂环境试样中氯酚的检测应用的发展方向进行了展望(引用文献49篇)。     

贵金属杂化纳米材料的合成及性能研究进展

近年来,杂化纳米材料的出现极大地拓展了纳米材料的应用范围,其特殊的结构、性能、尺寸和形貌使其不仅保持了各组分材料的特性及功能,更涌现了不同于各组分材料所不具备的新颖的、多样化的特殊性能和应用潜能,因此其制备方法和性能应用已经成为了研究热点.运用纳米技术将贵金属纳米粒子与其他性能优异的物质结合形成的贵金属杂化纳米材料被广泛运用到电化学、光催化、免疫传感、生物催化和医药化学等领域.本文综述了贵金属杂化纳米材料的制备方法、结构组成、性能特点、应用前景以及最新的发展趋势,重点介绍了贵金属杂化纳米材料的合成及应用.     

贵金属纳米团簇的制备及在生物检测中的应用

介绍了贵金属纳米团簇(noble metallic nanoclusters, NMNCs)的研究现状及其作为一种新型荧光标记纳米材料在生物检测中的重要作用。重点总结了贵金属纳米团簇的优异性质、三种常用的制备方法(模板法、单分子层保护法和蚀刻法)及其近年来在生物传感器、生物探针、细胞标记及成像等领域的应用进展。简要评述和展望了贵金属纳米团簇的发展方向和应用前景。     

Carbon Nanotubes Heavy Metal Detection with Stripping Voltammetry: A Review Paper

The challenge of heavy metal detection for environmental, industrial and medical purposes has led to the development of many analytical techniques. Stripping voltammetry is a very sensitive electrochemical method and has been widely used for heavy metal detection. Carbon nanotubes, a well‐studied carbon material with physical and chemical properties suited for electrode material is commonly employed for sensitive and selective metal detection in electrochemistry. This article reviews the recent (2011–2016) applications of carbon nanotubes as an electrode or electrode surface modifier for heavy metals detection with stripping voltammetry.     

石墨烯基复合材料去除和检测重金属离子的研究进展

石墨烯具有超大的比表面积、较快的载流子迁移速率和优异的电催化活性,广泛用于环境保护与检测领域。过去几年,基于石墨烯的大批高效吸附剂和传感器均被开发并应用于重金属离子的污染治理。本文详细阐述了石墨烯基复合材料在重金属离子去除和检测方面的研究进展,同时比较了不同方法的优缺点,最后对后续研究方向进行了展望。     

Carbon nanotube-based extraction and electrochemical detection of heavy metals

In this mini review, recent trends and challenges in developing carbon nanotube-based extraction and electrochemical detection of heavy metals in water are reviewed. Carbon nanotubes (CNT) have electrical, mechanical, chemical, and structural properties superior to those of conventional materials, for example graphite and activated carbon. CNT-based procedures are also more efficient than traditional techniques and methods, for example liquid?Cliquid extraction, atomic-absorption spectroscopy, flame photometry, and inductively coupled plasma, because they can enable rapid, sensitive, simple, and low-cost on-site detection. Different forms of CNT, including as-grown, oxidised, and functionalised CNT, can be well suited to metal adsorption. The measurement procedure relies on adsorbing the metal on the CNT surface after reasonable contact time, either by applying an electrical potential or under open-circuit conditions, and subsequent quantification. Different types of CNT-based electrode, including composite, paste, and binder-free, can be fabricated and used for metal detection. Application of CNT and their novel properties to the adsorption and detection of heavy metals is discussed in detail.     

Electrochemiluminescence of Carbon-based Quantum Dots: Synthesis,Mechanism and Application in Heavy Metal Ions Detection

In recent years, carbon-based quantum dots as luminophores and co-reactants have aroused broad interest for their ability to function in electrochemiluminescence (ECL) sensors due to their unique features, including excellent biocompatibility, low toxicity, and water solubility. In this mini review, the synthesis methods of carbon-based quantum dots are firstly introduced. Then, the mechanism of carbon-based quantum dots as luminophores and co-reactants and their latest progress application in the detection of heavy metal ions are explored. Finally, the current challenges and potential future development directions of carbon-based quantum dots in ECL sensing filed for heavy metal ions analysis are summarized.     

Progress on sensors based on nanomaterials for rapid detection of heavy metal ions

The heavy metal ions,especially Cd~(2+),Pb~(2+) and Hg~(2+),show extremely hazard to the environment and human being.The measurement of heavy metal ions using sensors is catching more and more attention for its advantages of high sensitivity and selectivity,low-cost,convenience to handle and rapid detection.In recent years,nanomaterials such as gold nanoparticles(NPs),magnetic nanoparticles,graphene and nanocomposite materials are applied in sensors for improving sensitivity and selectivity,making the research on electrochemical(EC) sensors,spectrometric biosensors and colorimetric biosensors become a hot spot in the application to investigate heavy metal ions,in particular,Cd~(2+),Pb~(2+) and Hg~(2+).In this short review,the research of advanced detection of Cd~(2+),Pb~(2+) and Hg~(2+) and its progress based on nanomaterial sensors in recent years is reviewed.     

Applications of nanoscale carbon-based materials in heavy metal sensing and detection

This article reviews applications of nanoscale carbon-based materials in heavy metal sensing and detection. These materials, including single-walled carbon nanotubes, multi-walled carbon nanotubes and carbon nanofibers among others, have unique and tunable properties enabling applications in various fields spanning from health, electronics and the environment sector. Specifically, we highlight the unique properties of these materials that enable their applications in the sorption and preconcentration of heavy metals ions prior to detection by spectroscopic, chromatographic and electrochemical techniques. We also discuss their distinct properties that enable them to be used as novel electrode materials in sensing and detection. The fabrication and modification of these electrodes is discussed in detail and their applications in various electrochemical techniques such as voltammetric stripping analysis, potentiometric stripping analysis, field effect transistor-based devices and electrical impedance are critically reviewed. Perspectives and futures trends in the use of these materials in heavy metal sensing and detection will also be highlighted.     

碳基量子点荧光传感器在环境检测中的应用研究

由于碳基量子点优越的光学性能、良好的水溶性及良好的生物相容性，其在荧光传感器方面的应用引起了越来越多人的关注，特别是其对金属离子卓越的检测性能使其广泛应用于环境检测。为了更好的了解到碳基量子点的应用，从碳量子点、石墨烯量子点、氧化石墨烯量子点的合成和近十年来关于其在环境检测中的应用做了总结，并对碳基量子点荧光传感器的应用做了展望。     

量子点在分析检测中的应用进展

量子点是一类粒径在纳米尺度的荧光材料,因其独特而优良的光学性质已在化学、生物和医学的研究及应用方面取得了很大进展。本文综述了近年来量子点在重金属离子和有机分子的定量分析、药物分析以及生命分析等领域的应用进展。