光化学比色传感器阵列的研究进展

光化学比色传感器阵列以其价格低廉、方法简单、响应快速、信息量大等优点,得到了日益广泛的应用。本文主要介绍了光化学比色传感器阵列的研究进展,概括了近年来其在气体、生物样品、离子和小分子,以及混合物检测方面的应用,针对其不同原理及性能展开了讨论,并展望了其研究和应用前景。     

电化学发光传感器研究进展

本文简要介绍了电化学发光传感器近几年取得的重要研究成果。内容主要包括联吡啶钌电化学发光传感器、鲁米诺电化学发光生物传感器及电化学发光的微型化发展。引用参考文献42篇。     

纸基比色阵列传感器的研究进展

比色阵列传感器具有响应迅速的识别检测能力,结合纸基分析装置成本低廉、制作简单和多孔亲水等优点,近年来纸基比色阵列传感器的研究发展迅速,灵敏度和通用性得到了进一步提高,应用领域大大拓展,受到了研究者的广泛关注。本文主要介绍了纸基比色阵列传感器的研究进展,概括了其近年在生物医疗、环境检测、食品安全等领域的应用,针对不同的检测传感材料、检测原理及性能进行了讨论,并对其研究和应用的前景和发展趋势进行了展望。     

基于氧化铈双重纳米酶活性的比率型比色传感器检测对氧磷

基于氧化铈(CeO₂)的类有机磷水解酶和类氧化酶活性发展了一种比率型比色传感方法,实现了对氧磷的灵敏、准确检测。具有类有机磷水解酶活性的CeO₂纳米粒子(CeO₂ NPs)可催化对氧磷水解为对硝基苯酚,其在400 nm处有明显吸收峰,溶液体系由无色变为黄色;Ce O₂还具有类氧化酶活性,催化3,3′,5,5′-四甲基联苯胺(TMB)氧化为氧化态TMB,在653 nm处有明显吸收峰,溶液由无色变为蓝色。当目标物对氧磷存在时,400 nm处吸光度(A₄₀₀)增高;同时对氧磷抑制其类氧化酶活性,653 nm处吸光度(A653)降低。基于对氧磷加入前后体系A₄₀₀/A653比值的变化,实现了对氧磷的灵敏、准确检测,检出限为0.03μmol/L(S/N=3)。利用本方法检测了韭菜样品中对氧磷的含量,加标回收率在92.0%～99.2%之间。本研究发展了一种基于CeO₂纳米酶双重活性的比率型比色传感检测方法,为食品中对氧磷残留的灵敏检测提供了新策略...     

汞离子荧光、比色传感器

基于主客体识别的汞离子比色、荧光传感器由于使用方法简单、灵敏度高、不需要昂贵仪器等优势,受到了越来越多的关注。本文综述了近年来汞离子比色和荧光传感器的研究进展。本文根据作用机理将汞离子比色、荧光传感器分成三类,即通过特殊反应识别汞离子的传感器,通过配位作用识别汞离子的传感器以及基于纳米材料的汞离子传感器。其中通过特殊反应识别的传感器根据具体反应类型又可分成汞离子诱导的罗丹明上的内酰胺环开环型、汞离子与含硫(硒)的受体发生脱硫(硒)反应使受体氧化或关环型、汞离子与受体发生加汞化反应型和汞离子使受体发生汞离子催化的化学反应型这四类。本文对这些类型的汞离子传感器从设计原理、识别性能和机理等方面进行了介绍,并展望了该领域的研究方向。     

基于核酸适配体的比色生物传感器研究进展

核酸适配体因能与目标物特异性结合而被用作生物识别元件,广泛用于生物传感器的研究。基于适配体的比色生物传感器,因简便、经济且直观可视等特点,在环境保护、医疗诊断和食品安全等领域备受青睐。随着生物技术和纳米技术的迅速发展,结合不同显色途径和信号放大方法,已建立了多种操作简便、特异性强、灵敏度高的基于适配体的比色传感方法,为现场快速检测技术的发展提供了新思路和新选择。识别元件、信号探针及信号放大策略都是影响比色生物传感器准确性和灵敏度的重要因素,纳米材料和放大策略的选择及设计非常重要。本文主要基于酶催化和等离子体共振比色原理,介绍了近年来比色适配体传感器的研究进展,为高灵敏比色生物传感器的研究和应用提供参考。     

以香豆素为基用以识别氟离子的新型比色化学传感器

以香豆素作为发色团,胺基为氢键供体,以—C=N键桥连设计合成了可裸眼识别氟离子的化学传感器1,吸收光谱结果表明在乙腈中它可以高选择性识别氟离子,光谱红移70 nm,溶液颜色由橙色变为蓝紫色,而其它离子如Cl~-、Br~-、I~-、H_2PO_4~-、NO_3~-、HSO_4~-、AcO~-等均不影响其对氟离子的识别.通过核磁共振氢谱考察其识别机制,表明传感分子通过与F~-间的质子转移反应,使整个体系电子离域,分子内电荷转移更加显著,从而导致吸收光谱大幅红移.     

基于纳米银的比色阵列传感器的构建及在蛋白质检测中的应用

蛋白质的快速高效检测和鉴定在医学诊断、不同疾病的治疗和蛋白质组学中具有巨大的前景。目前的检测手段大多存在一些问题,如操作繁琐、效率低等,因此开发一个理想的蛋白质检测方法尤为重要。以纳米银(AgNPs)为传感元件的阵列传感器在蛋白质检测方面具有操作便捷、准确率高、可视化等优点。本文合成两种不同颜色和形状的AgNPs:黄色球形和蓝色三角形,以此构建一个简单的比色阵列传感器,用于蛋白质的区分检测。该传感器可以准确地识别和区分不同种类的蛋白质,准确率为100%。在成功识别出不同类型的蛋白质的基础上,进一步评估了该阵列传感器应用于区分正常和变性蛋白质的能力,准确率为96.0%。此外,该阵列传感器对于未知样本的识别也具有高的准确率。     

基于偶氮苯酚类的比色传感器识别阴离子

设计合成了3个含酚羟基数量不同的偶氮苯化合物S1、S2和S3作为传感分子,研究S1、S2和S3对阴离子的比色识别,并探讨传感分子的结构与识别阴离子能力之间的联系。 结果表明:传感分子S1、S2和S3对F^-、H₂PO4-和AcO^-比色识别灵敏度高。 在CH₃CN中S1、S2和S3的F^-检测限达到1.25×10^-73.62×10^-7 mol/L,S2、S3对H₂PO4-和AcO^-的检测限也达同一数量级。 S1、S2和S3对阴离子F^-、H₂PO4-和AcO^-比色识别能力取决于阴离子的空间构型、电荷密度和碱性共同作用的结果。 ¹H NMR滴定结果表明,识别机理是S1、S2和S3的酚羟基与阴离子形成了分子间的氢键。     

非聚集金纳米棒比色传感器测定半胱氨酸

基于半胱氨酸（Cys）中的–SH与Hg2+配合生成稳定的Hg(Cys)₂,有效抑制抗坏血酸（Vc）还原Hg2+生成Hg0,进而抑制Hg0与金纳米棒（AuNRs）纵向部位的Au作用而生成金汞齐,导致AuNRs的纵向等离子体共振（Longitudinal surface plasmon resonance,LSPR）吸收峰红移,相应的吸光度（A）增大,并且伴随着溶液颜色的显著变化,同时随着Cys浓度的增大,吸光度A也逐渐增大,据此建立了一种快速     

Plastic colorimetric film sensors for gaseous ammonia

The preparation and characterization of three different plastic thin-film colorimetric sensors for gaseous ammonia is described. In the film sensors, the neutral form of a pH-sensitive dye (Bromophenol Blue, Bromocresol Green or Chlorophenol Red) was encapsulated in a plastic medium, either poly(vinyl butyral) or ethylcellulose plasticized with tributyl phosphate. Each of these film optodes gave a reproducible and reversible response towards gaseous ammonia. The sensitivity of the film sensors towards ammonia was found to be strongly dependent upon the pK _a of the encapsulated dye. Thus, the film with Chlorophenol Red (pK _a = 6.25), proved to be very insensitive (operating range: 0.29% < %NH₃ < 100%), whereas the film with Bromophenol Blue (pK _a = 4.1), was much more sensitive (operating range: 0.0003% < %NH₃ < 0.11%). The sensitivity of a plastic film sensor decreased markedly with increasing operating temperature and the 90% response (15–38 s) and recovery (820-127 s) times were slow and activation-controlled.     

State-of-the-art molecular imprinted colorimetric sensors and their on-site inspecting applications

Molecular imprinted colorimetric sensors can realize visual semi-quantitative analysis without the use of any equipment. With the advantages of low cost, fast response, ease of handling, and excellent recognition ability, the molecular imprinted colorimetric sensor shows great application potential in the field of sample rapid assay. Molecular imprinted colorimetric sensors can be prepared in various forms to meet the needs of different sample determination, such as film, hydrogel, strip, and adsorption coating. In this review, the preparation methods for various types of molecularly imprinted colorimetric sensors are systematically introduced. Their applications in the field of on-site biological sample detection, drug detection, disease treatment, chiral substance detection and separation, environmental analysis, and food safety detection are introduced. The limitations encountered in the practical application are presented, and the future development directions prospect.     

Synthesis of aza-crown ether-modified silver nanoparticles as colorimetric sensors for Ba2+

In this paper, we have demonstrated a facile strategy of preparing aza-crown ether (ACE)-modified silver nanoparticles (Ag NPs) by an efficient nano-conjugate technology named dithiocarbamate. This is the first report of using ACE to modify Ag NPs. ACE-modified Ag NPs have a good recognition of Ba²⁺, with the detection limit of 10^? 8 mol/l. It is reasonable to believe that Ba²⁺ induced the self-assembly of Ag NPs by the formation of the sandwich structure with ACE.

     

Highly selective silver nanoparticles based label free colorimetric sensor for nitrite anions

Highly selective label free colorimetric sensor based on AgNPs stabilized by phenolic chelating ligand, N,N′-bis(2-hydroxybenzyl)-1,2-diaminobenzene (1), for NO₂⁻ anions has been developed. Addition of NO₂⁻ showed selective decolourisation of brownish yellow colour of 1-AgNPs with the detection limit of 10⁻⁷ M. Absorption studies showed the complete disappearance of 1-AgNPs peak at 426 nm due to the conversion of AgNPs to silver ions. The presence silver ions were confirmed by white precipitates of AgCl formation with NaCl. The interference studies confirmed the high selectivity of NO₂⁻ sensing in presence of anions as well as cations by 1-AgNPs. A linear relationship was observed between the change of absorption and concentration of NO₂⁻. The present approach could be performed at room temperature and ambient conditions. The practical applications of 1-AgNPs for selective sensing of NO₂⁻ in different water samples such as ground, river, pond and tap water have also been demonstrated.     

Thin-film oxygen sensors using a luminescent polynuclear gold(I) complex

Robust thin-film oxygen sensors were fabricated by encapsulating a lipophilic, polynuclear gold(I) complex, bis{m-(bis(diphenylphosphino)octadecylamine-P,P′)}dichlorodigold(I), in oxygen permeable polystyrene and ormosil matrices. Strong phosphorescence, which was quenched by gaseous and dissolved oxygen, was observed from both matrices. The polystyrene encapsulated dye exhibited downward-turning Stern–Volmer plots which were well fitted by a two-site model. The ormosil trapped complex showed linear Stern–Volmer plots for dissolved oxygen quenching but was downward turning for gaseous oxygen. No leaching was observed when the ormosil based sensors were immersed in flowing water over an 8 h period. Both films exhibited fully reversible response and recovery to changing oxygen concentration with rapid response times.     

光学薄膜氧气传感器研究进展

光学薄膜氧气传感器具有检测精度高、选择性好、抗干扰能力强等优点,近年来日益得到人们的广泛重视,研究工作也在不断深化和拓展,展现出十分广阔的应用前景。本文按光学薄膜氧气传感器的制备方法分类扼要综述了光学薄膜氧气传感器的研究现状,并展望了其研究前景。     

用于柔性应变传感器的离子凝胶的研究进展

随着生活智能化和生产数字化的发展,人们对于柔性传感器、柔性储能器件、柔性显示屏等柔性电子器件的需求和要求逐渐提升,这迫切需要开发具有优良拉伸性能、高透明度和适用温度范围大的柔性导电材料。离子凝胶是一种将离子液体限制在固态三维网络结构的导电弹性材料,其在耐热性、稳定性和力学性能等方面有着明显优势,在柔性电子器件的制造中有着巨大应用潜力。本文将从构成离子凝胶的固态三维网络的分类、结构与性质的改进来综述离子凝胶在柔性应变传感器的研究进展并对离子凝胶的研究发展趋势进行展望。     

MOFs传感器在癌症及其生物标志物检测中的应用

癌症是世界上最致命的疾病之一,因此癌细胞的有效捕获和敏感检测对基础研究以及临床诊断和治疗都具有重要意义.基于金属有机骨架(MOFs)的催化活性和固有的发光性能等特点,MOFs已被成功地开发为传感平台实现对癌症及其标志物的检测.综述了基于MOFs的电化学、荧光、电化学发光、比色传感器在癌细胞及核酸、蛋白质等生物标志物检测...     

Sensitive and selective detection of glutathione based on anti-catalytical growth of gold nanoparticles colorimetric sensor

Gold nanoparticles (AuNps) are often employed in different detection paths based on the catalytic growth mechanism; AuNps could act as catalyst for the reduction of AuCl₄^? and result in the enlargement of the original AuNps. However, there are few probes based on the anti-catalytical growth of AuNps in previous studies. In this article, we proposed a simple colorimetric sensor for the detection of glutathione (GSH) based on the anti-catalytical growth of AuNps, the strong affinity of GSH make it readily combine with AuNps or metal ions (AuCl₄^?), and thus inhibit the catalytical growth of AuNps through the specific property of GSH. Therefore, the UV absorbance of detection system could be used to estimate the concentration of GSH, and the probe exhibits highly sensitive and selective detection of the concentration of GSH with a wide linear from 13 to 800 nM within 20 min. Meanwhile, a good linear relationship with correlation coefficient of R² = 0.9795 was obtained. It is believed that this research could broaden the choices of GSH detection methods.     

A colorimetric and fluorometric fluoride sensor based on a BODIPY-phenol conjugate

A boradiazaindacenes (BODIPY)-phenol conjugate,1,can act as a colorimetric and fluorometric sensor for sensitive and se-lective measurement of F-over AcO-and H2PO-4 in CH3CN. Sensor 1 gives response to F-in a 1:1 ratio via the deprotonation of the phenolic OH proton,which results in color change from pale yellow to light green and quenching of bright green fluo-rescence.