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.     

基于杯[6]芳烃的选择性识别氟离子和丙二酸的荧光传感器

以杯[6]芳烃为平台, 通过在上沿用氨基吡啶桥连的方法固定构象, 并以氨基吡啶基团为识别位点和荧光基团, 合成了一类能识别F－和丙二酸的新型荧光化学传感器. 当氟离子与胺成氢键时, 由于光诱导电子转移效应(PET), 荧光强度淬灭; 但往这个配合物滴加丙二酸时, 荧光强度得到迅速恢复, 由此, 传感器体现了一个on/off的分子开关性质.     

香豆素类铝离子荧光化学传感器的合成及性能

为了方便快捷地检测铝离子,本文以7-羟基香豆素为原料合成了铝离子荧光化学传感器。 通过质谱、核磁共振谱、紫外可见分光光度计等技术手段研究了传感器的结构和性能。 结果表明,该传感器对铝离子有很好的选择性,其检出限为8.5×10^-8 mol/L,其识别过程具有可逆性,同时,Job's plot曲线表明二者形成配位比为1:1的稳定配合物。 该研究对生物体及环境领域中铝离子的实时监测具有潜在的应用价值。     

焦磷酸根离子化学传感器的研究进展

离子广泛存在于自然界,在生物、医药、化学和环境科学等领域均起着重要作用。焦磷酸根离子(P₂O₇^4-,缩写为PPi)参与人体内遗传物质DNA的复制和供能物质三磷酸腺苷(ATP)的合成,其含量的高低与一些疾病(比如癌症)的进展密切相关。实时选择性识别与检测PPi对生命活动的观测、疾病的诊断与生态环境的监测均具有重要的意义。因此,基于主客体化学的PPi离子高选择性化学传感器的设计与合成引起了人们的广泛关注,已成为超分子化学研究的热门领域。本文综述了近几年用于识别与检测PPi的化学传感器的研究进展,分析了其优势及不足,并对其应用前景进行了展望。     

四羰基钴钠合成及红外光谱研究

四羰基钴钠合成及红外光谱研究李光兴，朱治良，蔡晓江，梅付名（华中理工大学化学系，武汉４３００７４）郭小川（湖北省襄樊市化工研究所，襄樊４４１０２２）关键词Ｎａ［Ｃｏ（ＣＯ）_４］，Ｎａ_２Ｓ_２Ｏ_３，羰基化，红外光谱．１．前言羰基钴是一种十分重要的均相...     

设计合成新型有机硒化合物用于汞离子识别性能研究

设计合成了有机硒化合物1,4-二(2-苄硒基)乙氧基蒽,利用1H NMR、13C NMR、红外光谱和质谱对化合物进行了结构表征,采用荧光光谱技术研究了其对金属阳离子的识别。结果表明,其对汞离子有较强的识别能力,且对汞离子表现出开关性能。最后,初步讨论了其的识别机理和应用。     

设计合成新型有机硒化合物用于金属阳离子识别性能研究

设计合成了有机硒化合物1,4-二(2-苄硒基)乙氧基蒽,利用1H NMR、13C NMR、红外光谱和质谱对化合物进行了结构表征,采用荧光光谱技术研究了其对金属阳离子的识别。结果表明,其对汞离子有较强的识别能力,且对汞离子表现出开关性能。最后,初步讨论了其的识别机理和应用。     

一种长链烷氧基苯腙衍生物对氟离子的高选择性识别

设计并合成了一种新型长链烷氧基酰腙衍生物1-(2,4-二硝基苯基)-2-(4-(十四烷氧基)亚苄基)肼R,系统研究了受体R对9种阴离子(F^-、Cl^-、Br^-、I^-、HSO^-₄、NO^-₃、ClO^-₄、H₂PO^-₄、Ac^-)的紫外-可见吸收光谱(UV-Vis)及裸眼识别性能。 结果表明,该受体在二甲基亚砜(DMSO)体系中对F^-、Ac^-和H₂PO^-₄表现出良好的UV-Vis及裸眼识别能力。 此外,在H₂O/DMSO(体积比1∶9)体系中可对F^-实现单一UV-Vis及裸眼识别,且检出限可达7.02×10^-7 mol/L,同时制备了受体R对阴离子的检测试纸,Job曲线表明受体与阴离子形成1∶1型配合物。 F^-离子的识别机理为“氢键型”响应识别现象。     

共轭聚合物离子荧光化学传感器

荧光传感器能够将分子识别的信息转换成荧光信号,荧光法在灵敏度、选择性和实时原位检测等方面优势突出,最近已引起了人们很大的兴趣。本文主要介绍以共轭聚合物为基础的离子荧光化学传感器的近期研究进展,重点综述了共轭聚合物的荧光化学传感器在阳离子识别检测中的分子设计、合成、作用机理和应用,并展望了该领域的发展方向。     

基于有机硼化合物的氟离子化学传感器的研究进展

有机硼化合物中硼原子空的pπ轨道使其作为路易斯酸能够选择性的结合氟离子,其与氟离子的结合破坏了硼中心与芳香取代基的pπ-π共轭,引起有机硼化合物光物理性质的变化。因此,有机硼化合物能够用作高选择性的氟离子化学传感器材料。本文从具有三芳基硼结构及硼酸或硼酸酯结构的这两类有机硼化合物出发,综述了它们在氟离子化学传感器领域的研究进展。     

Isophorone‐boronate ester: A simple chemosensor for optical detection of fluoride anion

A highly selective isophorone‐boronate ester based chemosensor, ( 1 ) , having a dicyanovinyl moiety as a convenient colorimetric probe, has been designed. Different types of anionic analyte such as CH₃COO^?, ClO₄^?, Cl^?, F^?, PF₆^?, Br^? and HSO₄^? were tested and among them only highly nucleophilic F^? anion displayed significant response towards the sensor. Addition of the fluoride anion across the boron atom disrupts the π‐conjugation thereby shifts the absorption wavelength towards the redshift region due to the decrease in the HOMO‐LUMO energy gap and a colour change from yellow to blue is observed under visible light condition. The detection limit of this probe was calculated to be 3.25 × 10^—8 M for fluoride anion. The binding constants and the detection limits of the sensor were calculated using absorption titration studies. The silica gel TLC strips dip‐coated by the chemosensor ( 1 ) revealed a colour change from yellow to brick red to naked eye.     

一种双腙受体的合成及阴离子识别性能研究

设计合成了一种含双腙类阴离子受体1(5-甲基双水杨醛-2,4-二硝基苯腙)。用紫外-可见吸收光谱、荧光光谱考察了其与AcO-,H2PO4-,F-,Cl-,Br-和I-阴离子的作用。当加入AcO-、F-和H2PO4-时,受体分子1的吸收光谱发生明显的红移,与此同时溶液颜色由浅粉色变为紫色,而加入其他阴离子则无变化。通过在DMSO-d6核磁滴定实验进一步研究受体1和F-相互作用的本质。     

A reversible dual-channel chemosensor for fluoride anion

A colorimetric and fluorescent fluoride probe bearing phenolic hydroxy and imine groups has been designed and synthesised. This receptor could visually and spectroscopically recognise F^?  with high selectivity over other anions. After the addition of fluoride ions to the solution of ([1,1′-biphenyl]-4,4′-diylbis (azanylylidene)) bis (methanylylidene)) bis (naphthalen-2-ol) (TY), since the deprotonation reaction occurred between the sensor and fluoride, the fluorescence intensity of the solution changed significantly. Furthermore, the quenched fluorescence caused by fluoride ions could be recovered upon the addition of calcium ions to this complex solution. This resulted in an ‘OFF-ON-OFF’ type sensing. In particular, an IMP logic gate has been proposed using the output obtained from the fluorescence studies. The fluorescence, UV-vis titration and ¹H NMR titration experiments indicated that the effects might occur via a combined process including hydrogen bond and deprotonation between the sensor and F^? .     

Synthesis,spectroscopic characterization and biological evaluation of a novel chemosensor with different metal ions

A novel chemosensor, namely 3‐(4‐chlorophenyl)‐1‐(pyridin‐2‐yl)prop‐2‐en‐1‐one, CPPEO, and its metal complexes have been synthesized and characterized by using sets of chemical and spectroscopic techniques, such as elemental analysis, mass, Fourier transform‐infrared and UV–Vis spectral analysis. The thermal properties of the metal complexes have been investigated by thermogravimetric techniques. The decomposition mechanism of the titled complexes was suggested. The results showed that the Co²⁺ and Mn²⁺ complexes have an octahedral geometry, while Zn²⁺ and Cd²⁺ complexes have tetrahedral geometry. The kinetic and thermodynamic parameters of the thermal decomposition stages have been evaluated using the Coats–Redfern method. The optical sensing response of the investigated chemosensor to the different metal ions was investigated. It responds well to the tested metal ions as reflected from the significant change in both absorption and emission spectra upon adding different concentrations of the metal salts, confirming the intramolecular charge transfer of the chemosensor upon effective coordination with the used metal ions. This leads to enhancing ICT interaction, causing a significant shift in the presence of strongly complexing metal ions. This was fully reversible, where the solution of dye‐metal ion complex was decomplexed by adding an EDTA solution to revert the original spectrum of the dye. The stability constants, K, for the complexes of the investigated chemosensor with the mentioned metal ions were calculated, indicating that Co²⁺ is the most effectively detected, and the potential of the novel dye was highly efficient switchers for Co²⁺ ions. Additionally, the molecular modeling was carried out for the chemosensor and its metal complexes. Finally, the solid complexes have been tested for their in vitro antimicrobial activities against some bacterial strains (Gram +ve and Gram ?ve bacteria), as well as antifungal strains.     

三维主体分子的合成及阴离子识别研究进展

生物功能体系的模拟是生物有机化学和超分子化学发展的前沿领域之一。本文简要论述新型大二环．大三环、笼型环番以及其它三维主体分子的合成及对阴离子选择性识别作用的研究新进展。     

Theoretical study on a chemosensor for fluoride anion‐based on a urea derivative

The sensing mechanism of the N‐Phenyl‐N′‐(3‐quinolinyl)urea (PQU) chemosensor for fluoride anion has been investigated by density functional theory/time‐dependent density function theory. The double intermolecular hydrogen bonds are formed between the three anions (X^??F^?, AcO^?, Cl^?) and the urea fragment of PQU. In the S₀ states, the H_b? X^? hydrogen bonds are slightly stronger than the H_a? X^? hydrogen bonds and the fluoride‐induced deprotonation occurs at the N? H_b position rather than at the N? H_a position. Consequently, the absorption peaks, including an intramolecular charge transfer transition and a ππ* transition, are significantly red‐shifted. Thermodynamic calculations confirm that the deprotonation in the ground state is favorable in energy only when excess fluoride anion exists. Along with the S₀ → S₁ transition, the H_a? X^? hydrogen bonds strengthen and the H_b? X^? hydrogen bonds weaken. However, the emission spectra of [PQU‐H_b]^?, instead of [PQU‐H_a]^?, are observed upon addition of fluoride anion. © 2013 Wiley Periodicals, Inc.     

Theoretical insights into the fluoride anion response mechanism of a fluorescence chemosensor 4‐((tert‐butyldiphenylsilyl)oxy)isophthalaldehyde

It is well known that ions play important roles in our life sciences, and the detection of ions has attracted more and more attention. In this work, we focus on the sensing response mechanism of a novel fluoride chemosensor, 4‐((tert‐butyldiphenylsilyl)oxy)isophthalaldehyde (BIPA). Based on density functional theory and time‐dependent density functional theory methods, we clarify that fluoride anions could trigger the cleavage reaction of the Si‐O bond of BIPA in the ground state. And, the potential energy curve of desilylation process reveals the rapid response to fluoride anions. Comparing the binding energies between fluoride anions and other anions, we confirm that only the fluoride anions could be detected using the BIPA chemosensor in ethanol solvent. Considering the photo‐excitation process, we find the strong intramolecular charge transfer process for the S₀ → S₁ transition could explain the red shift of the absorption spectra of the BIPA system. This work not only clarifies the specific fluoride‐sensing mechanism, but also plays a role in facilitating designing and synthesizing of novel fluorescent sensors in future.     

核苷磷酸盐对含双芘侧链荧光敏感器化合物的荧光猝灭与分子识别

合成了一种在水溶液中对核苷磷酸盐ATP,ADP,AMP阴离子具有识别能力的荧光化学敏感器分子---化合物1。通过检测化合物1在水溶液中芘激基缔合物荧光发射强度随核苷磷酸盐、腺嘌呤等的加入而引起的变化,求出不同核苷磷酸盐及腺嘌呤对芘激基缔合物荧光发射的猝灭常数,并进行了比较研究。利用荧光发射强度随不同核苷磷酸盐引入而发生的变化计算出化合物1对不同核苷磷酸盐进行配位的配位稳定常数。结果表明所合成的化合物1对ATP有着良好的识别力选择功能。此外,还利用分子力学的计算方法对化合物1及其与核苷磷酸盐形成配合物后的分子构象及几何尺寸作了计算,并结合实验结果进行了初步讨论。     

Synthesis and anion recognition of neutral receptors based on multiamide calix[4]arene

Two multiamide calix[4]arenes (5, 6) were synthesized and characterized by NMR, MS and elemental analysis. The binding properties of receptors with some anions (π-O₂NPhOPO₃²⁻, π-O₂NPhO⁻, H₂PO₄⁻, Ac⁻, Cl⁻, Br⁻ and I⁻) were studied by UV-Vis spectra. The results indicate that the tetraamide calix[4]arenes (5, 6) have a good selectivity to the anions containing aromatic ring (π-O₂NPhOPO₃ ²⁻, π-O₂NPhO⁻). The 1 : 1 complexes between host and guest were formed through multiple hydrogen bonding and π-π interactions. The hosts 5 and 6 also show a definite binding ability for the anions (H₂PO₄⁻, Ac⁻, Cl⁻) that have no ultraviolet absorption, which provides a simple method of spectrum detection for these anions.     

Synthesis and anion recognition of neutral receptors based on multiamide calyx[4]arene

~~Synthesis and anion recognition of neutral receptors based on multiamide calyx[4]arene~~