Internet Information Resources for Analytical Chemistry

The Web collection of electronic materials on Internet information resources for analytical chemistry (http://www.geokhi.ru/rusanalytchem/Resources/ default.htm) is reviewed. Data on the most informative sites maintained by institutions of various countries are systematized.     

微悬臂生物传感器

微悬臂生物传感器是基于原子力显微镜和生物传感器发展而来,具有无需标记、快速、实时、灵敏度高等优点,已广泛运用于生物医学、环境监测、医药、食品及军事等多个领域。微悬臂生物传感器已成为当前研究热点。本文对近年来微悬臂生物传感器的研究工作进行了综述,总结了微悬臂传感器中微悬臂梁的结构、工作模式、激励方法和检测方法。国内有关微悬臂传感器的综述多是着重于介绍微悬臂传感器的应用进展,而缺少对微悬臂传感器的检测方法或读出方式做全面而系统的介绍,本文不仅全面且系统地对微悬臂传感器的8种检测方法进行了详细的介绍和分析,还介绍了微悬臂梁的多种典型尺寸、外观和微悬臂传感器工作模式中的"热模式"。针对微悬臂传感器实现特定检测及提高灵敏度的目的,本文总结了微悬臂传感器的表面修饰方法,不仅介绍了国内外微悬臂生物传感器最新的应用动态,还介绍了一种具有自驱动自传感功能的新型微悬臂传感器,并对微悬臂生物传感器的应用前景作了探讨。     

Diamond Based Biosensors: Surface-Fluid Interaction Issues

The interaction of nanocrystalline (NCD) and microcrystalline (MCD) p-type semiconducting diamond surfaces with phosphate buffer saline (PBS), simulated body fluid (SBF) and bovine serum albumin (BSA) solutions under applied electric potentials is the main subject of this work. The effect of these fluids on the electrical resistivity of the diamond surface is evaluated. Furthermore, the interaction effects of these surfaces with BSA containing SBF solution during 30 days, is addressed.The electrical measurements have shown that the electrical current passing through the NCD samples is influenced by the fluid's ionic composition, whereas no variation was detected for the MCD samples. Both NCD and MCD surfaces favor the formation of a deposit layer after 30 days in contact with SBF+BSA solution. This deposit is mainly composed of Ca, P, Mg and O, containing also a significant concentration of BSA proteins.     

Metal Nano-Cluster Biosensors

Resonant enhancement of absorptive properties of metal clusters bound to a surface by biorecognitive interactions is an effective means to set up bio-optical devices. Resonant amplification of a four-layer system has been proposed and recently demonstrated with a metal mirror, a polymer distance layer, a biomolecule interaction layer and a sub-monolayer of biorecognitively bound metal nano-clusters. Calculations and corresponding experiments indicated a strong influence of cluster symmetry and cluster shell on the distinct reflection minimum induced by the resonant behavior. Here, we present the first biosensor which clearly shows a narrow reflection minima system in the red or infra-red and therefore far away from the limit exhibited by spherical gold colloids at around 600?nm. The asymmetry of the metal clusters (synthesized by thermal step reduction in a detergent system) as well as metal–dielectric shell clusters (synthesized by multiple shell deposition processes) enabled us to shift the readout of the device to a frequency range where blood is highly transparent. Disposable single step assays were established, employing lectin–sugar, antigen–antibody and protein–receptor interactions.     

基于核酸适体的电化学生物传感器

核酸适体是一类体外筛选的、可与目标分子高效、高特异亲合的RNA或DNA寡核苷酸片段,与常规识别分子（如抗体等）相比,核酸适体作为一类新型识别分子具有明显特色和优势,已被广泛应用于生物传感等分子识别和应用研究领域。本文就基于核酸适体的电化学生物传感器（标记型和非标记型）的近期进展作简要评述,包括适体简介、标记型（“信号衰减”型、“信号增强”型、酶标记型和纳米粒子标记型）和非标记型电化学适体生物传感器等内容。     

酶放大DNA电化学传感器的研究进展

DNA电化学传感器灵敏度高、选择性好、分析时间短和检测成本低,极大地推动了生物传感器的发展. 结合蛋白质酶、功能核酸酶的催化效率高与特异性好,可提高检测灵敏度和选择性. 本文评述了酶放大DNA电化学传感器的研究进展,并分析现存问题,展望发展趋势.     

电化学葡萄糖传感器

作为电化学生物传感器中最重要的研究内容之一,葡萄糖生物传感器在数十年的发展中取得了巨大进展。本文综述了近年来利用纳米技术设计的新型电化学葡萄糖传感器的主要研究进展,并从纳米材料维度分类进行了讨论。其中,零维纳米材料主要讨论了包括金纳米颗粒、银纳米颗粒以及铜、铂等金属纳米颗粒材料; 一维纳米材料主要讨论了通过模板法制备的金属或金属氧化物纳米线以及单臂或者多壁纳米管材料; 二维纳米材料主要总结了以碳为基础的石墨烯材料和一些片状的金属材料。纳米材料对电化学葡萄糖传感器的影响主要集中在生物相容性、增强检测灵敏度、酶的固定等方面。此外,本文也对电化学葡萄糖传感器的今后发展做了展望。     

Label-Free Impedance Biosensors: Opportunities and Challenges

Impedance biosensors are a class of electrical biosensors that show promise for point-of-care and other applications due to low cost, ease of miniaturization, and label-free operation. Unlabeled DNA and protein targets can be detected by monitoring changes in surface impedance when a target molecule binds to an immobilized probe. The affinity capture step leads to challenges shared by all label-free affinity biosensors; these challenges are discussed along with others unique to impedance readout. Various possible mechanisms for impedance change upon target binding are discussed. We critically summarize accomplishments of past label-free impedance biosensors and identify areas for future research.     

Biosensors and bioprobes

Dedicated microsensors for automation and process control are becoming pervasive in many aspects of high technology. New developments in chemical sensing mechanisms and the design, miniaturization and fabrication of biosensors and bioprobes is leading to exciting potential applications in invasive biological analysis, remote sensing of harsh environments and biotechnological synthesis.     

光电化学型半导体生物传感器

光电化学型半导体生物传感器是一种利用半导体的光电特性来检测与光生电流或光生电压相关的待测物质浓度及生化过程参数的分析新技术。随着新兴半导体功能材料及相关加工技术的不断涌现,光电化学型半导体生物传感器已在微型化、集成化、多点及多参数测量方面显现出优势、有望在复杂体系中实现在线高灵敏、快速测定,在生物、医药、环境监测、食品等领域显示出广阔的应用前景。本文主要介绍了光电化学型半导体传感器的基本原理、特点及近几年的研究进展,并对其发展前景做了展望。     

纳米电化学生物传感器

纳米电化学生物传感器是将纳米材料作为一种新型的生物传感介质,与特异性分子识别物质如酶、抗原/抗体、DNA等相结合,并以电化学信号为检测信号的分析器件。本文简要介绍了生物传感器的分类和纳米材料在电化学生物传感器中的应用及其优势,综述了近年来各类纳米电化学生物传感器在生物检测方面的研究进展,包括纳米颗粒生物传感器,纳米管、纳米棒、纳米纤维与纳米线生物传感器,以及纳米片与纳米阵列生物传感器等。