三种水杨醛席夫碱荧光探针的合成及对Zn2+的识别

设计、合成了3种新型席夫碱Zn²⁺荧光探针：水杨醛缩三羟甲基氨基甲烷(L1)、5-氯水杨醛缩三羟甲基氨基甲烷(L2)和4-甲氧基水杨醛缩三羟甲基氨基甲烷(L3),并用¹H NMR、¹³C NMR、元素分析和HRMS进行了表征。光谱分析实验结果表明,相比于探针L1和L3,探针L2对Zn²⁺具有更好的选择性和灵敏度,检出限为11.96 nmol·L^-1,远低于国标GB5749—2006规定的饮水中Zn²⁺的限量值1.0 mg·L^-1(约15 μmol·L^-1)。在0~10 μmol·L^-1范围内,探针L2的荧光强度与Zn²⁺浓度可呈良好的线性关系。同时,配合物[Zn (C₁₁H₁₃ClNO₄)₂](L2-Zn²⁺)的单晶结构和Job曲线证实探针L2与Zn²⁺以物质的量之比2∶1配位。另外,探针L2能够对实际水样中的Zn²⁺进行有效检测。     

基于去保护机理的新型H2O2荧光探针的制备及应用

合成的3',6'-对戊酰硼荧光素是一种基于去保护机理的高灵敏H₂O₂荧光增强化合物, 能灵敏地检测出样品中H₂O₂的含量. 用IR, ¹H NMR 对该探针的结构进行了表征, 并且讨论了反应时间、溶剂、碱对探针合成的影响. 研究了探针的最佳响应时间, 结果表明检测过程中反应的最佳时间为3 min. 该探针在2.3×10^－12～2.0×10^－8 mol/L H₂O₂溶液范围内呈荧光增强趋势, 检测下限为2.3×10^－12 mol/L. 此探针重现性良好, 在血清中检测H₂O₂的回收率在93.9%～102.2%之间, 结果令人满意, 具有一定的实用价值.     

基于去保护机理的新型H2O2荧光探针的制备及应用

合成的3',6'-对戊酰硼荧光素是一种基于去保护机理的高灵敏H₂O₂荧光增强化合物, 能灵敏地检测出样品中H₂O₂的含量. 用IR, ¹H NMR 对该探针的结构进行了表征, 并且讨论了反应时间、溶剂、碱对探针合成的影响. 研究了探针的最佳响应时间, 结果表明检测过程中反应的最佳时间为3 min. 该探针在2.3×10^－12～2.0×10^－8 mol/L H₂O₂溶液范围内呈荧光增强趋势, 检测下限为2.3×10^－12 mol/L. 此探针重现性良好, 在血清中检测H₂O₂的回收率在93.9%～102.2%之间, 结果令人满意, 具有一定的实用价值.     

一种基于DPA识别基团的可视化检测锌离子的荧光增强型探针

以N,N-二（2-吡啶甲基）胺（DPA）为识别基团,设计合成了一种用于检测Zn²⁺的荧光增强型探针WN,在CH₃CH₂OH/Tris-HCl（1：9,V/V,pH=7.4）缓冲溶液中研究了它对Zn²⁺的识别特性。实验结果表明,WN对Zn²⁺有较高的选择性和灵敏度,它们之间的结合比为1：1,对Zn²⁺的检出限为1.14×10^-8mol·L^-1。WN能够快速地可视化检测Zn²⁺,在HeLa活细胞中对Zn²⁺的荧光显微成像表明WN可应用于生物体的检测。     

一种检测CO32-比率荧光探针的合成及其在细胞成像中的应用

本文设计开发了一种以2,6-二甲酰基对甲苯酚为母体的新型荧光探针HMI,可用于高效识别EtOH-H₂O (8/2, v/v, HEPES 10 mM, pH =7.4)体系中的CO_3^2-。HMI在660 nm处显示发射带,加入CO_3^2-后,在600 nm的等吸收点激发时,原来在660 nm处的荧光淬灭,而以540 nm为中心的新发射带荧光显着增加,为比率型荧光探针。HMI对CO_3^2-表现出高选择性且具有较强的抗干扰能力。此外,荧光探针HMI对CO_3^2-荧光响应的检测限较低,可达到3.938×10^_-6 M。更具有意义的是,HMI探针对CO_3^2-的检测能够在实际水样中起到很好的应用,而且细胞成像研究表明,HMI可用于活体MCF-7细胞中CO_3^2-的成像。     

一例喹喔啉酰腙荧光探针对锌离子的选择性高灵敏识别及细胞成像应用

通过缩合反应制备了一例席夫碱荧光探针2-喹喔啉甲醛缩2-吡啶酰肼(1),使用核磁共振氢谱和碳谱及质谱等手段表征了探针的结构。荧光光谱分析表明,探针1自身无荧光,而Zn²⁺能够导致其在500 nm处出现强发射峰。该荧光增强能够在常见阳离子中选择性检测 Zn²⁺,检测限低至 0.16 μmol·L^-1。通过核磁、质谱和紫外等手段推测了探针 1与 Zn²⁺可能的配位模式。通过单晶X射线衍射解析了1-Zn²⁺配合物的晶体结构,进一步确认了探针的配位行为。1-Zn²⁺晶体中探针分别采取ONN和NN配位模式螯合2个Zn²⁺,并由桥联CH₃O^-和Cl^-连接形成一维链状结构。此外,该探针还可用于活细胞中Zn²⁺的检测。     

多功能Zn(Ⅱ)金属有机骨架荧光传感器检测苯甲醛、四环素、2,4,6-三硝基苯甲酸、氟啶胺、Cr2O72-和Fe3+

成功制备了新型 Zn(Ⅱ)金属有机骨架(MOF)[Zn₂(Hdepa)(dya)₂]n (1)(H₅depa=2,2'',3,4'',5-二苯醚五羧酸,dya=2,2''-二吡啶胺)。单晶 X 射线衍射分析表明 MOF 1 由 2 个 Zn²⁺离子与 1 个 Hdepa^4-离子和 2 个 dya 分子连接组成,通过氢键形成三维骨架。用粉末X射线衍射和IR表征了配合物1的相纯度。值得注意的是,配合物1具有优异的荧光特性和热稳定性,1的高灵敏度和选择性使其能够作为荧光传感器检测苯甲醛(BZH)、四环素(TC)、2,4,6-三硝基苯酚(TNP)、氟啶胺(Flu)、Cr₂O₇^2-和Fe³⁺。此外,通过荧光寿命分析了Fe³⁺、TC、BZH对MOF 1的荧光的猝灭过程,通过能量转移研究了Fe³⁺、Cr₂O₇^2-、TNP、TC、BZH和Flu的荧光猝灭机理。     

一个基于NBD-NH2荧光团的增强型pH荧光探针及其细胞造影研究

本文以NBD-NH₂荧光团偶联N-(4-吡啶甲基)乙二胺质子受体构建了基于光致电子转移(PET)机制的pH探针NBD-Py。探针在pH 5.0~8.5范围内显示pH降低导致的荧光增强响应,pK_a为6.48。该响应不受胞内常见金属离子干扰且有良好的可逆性。研究表明质子受体中引入4-甲基吡啶修饰乙二胺是探针实现对弱酸/近中性pH响应的关键。HeLa细胞中的造影证实了探针的pH_i造影能力和溶酶体靶向性能,为溶酶体pH相关的生理过程研究提供了新的可靠手段。     

5-N,N-二乙氨基-2-(吡啶-2’-亚氨甲基)苯酚的合成及其对Zn~(2+)的识别

本文利用2-氨基吡啶与4-N,N-二乙氨基水杨醛反应合成了5-N,N-二乙胺基-2-(吡啶-2’-亚氨甲基)苯酚(探针L),并对其结构进行了表征。在DMSO/Tris(体积比6∶4,p H=7. 4)溶液中,探针L高选择性荧光"关-开"识别Zn2+,在365nm紫外灯照射下,由无荧光变成蓝色荧光。实验表明,探针L与Zn2+的结合比为1∶1,结合常数为2. 6×103L/mol,检测限为9. 39×10-7mol/L,p H适用范围为7～11,并可检测水样中的Zn2+。     

Cu(bpy)2+2与鸟嘌呤及鸟苷相互作用的研究

在中性磷酸盐缓溶冲液中，用电化学和荧光光谱法研究了Cu(bpy)²⁺₂与鸟嘌呤和鸟苷的相互作用。结果表明鸟嘌呤和鸟苷与Cu(bpy)²⁺₂的配位比均为1∶1，配位常数分别为4.62×10⁴ L/mol和1.96×10⁴ L/mol。紫外光谱电化学实验进一步表明，鸟嘌呤或鸟苷与Cu(bpy)²⁺₂发生了相互作用。     

2-(苯并噻唑-2-基)-5-(N,N-二乙基氨基)苯酚衍生物的合成及其对H2S的识别

以4-N,N-二乙基氨基水杨醛为原料,制备了2-(苯并噻唑-2-基)-5-(N,N-二乙基氨基)苯酚衍生物(探针L),并对其结构进行了表征。在DMSO/PBS(体积比3∶7,pH=7.4)溶液中,探针L具有高选择性并可荧光"关-开"识别H_2S,在365nm紫外灯照射下,由无荧光变成蓝色荧光。实验表明,探针L识别H_2S的检测限为2.05×10~(-6)mol/L,pH适用范围为6～9,可用于检测实际水样中的H_2S。     

A new Schiff base fluorescent indicator for the detection of Mg<Superscript>2+</Superscript> and its application to real samples

A new Schiff base fluorescence probe, 3-Allylsalicylaldehyde salicylhydrazone (L), for Mg²⁺ was designed and synthesized. The fluorescence of the sensor L was enhanced remarkably by Mg²⁺ with 2:1 binding ratio, and the binding constant was determined to be 1.02 × 10⁷ M^?1. Probe L had high sensitivity for Mg²⁺ in a solution of DMF/water (4:1, v/v, pH 7.5), and the detection limit was 4.88 × 10^?8 mol/L. Common coexistent metal ions, such as K⁺, Na⁺, Ag⁺, Ca²⁺, Zn²⁺, Ba²⁺, Bi²⁺, Cu²⁺, Ni²⁺, Hg²⁺, Fe³⁺ , and Al³⁺, showed little or no interference on the detection of Mg²⁺ in solution. The fluorescence probe L, which was successfully used for the determination of trace Mg(II) in real samples, was shown to be promising for liquid-phase extraction coupled with fluorescence spectra.     

Molecular fluorescent probe for Zn based on 2-(2-nitrostyryl)-8-methoxyquinoline

A fluorescent Zn²⁺ sensor based on the 2-(2-nitrostyryl)-8-methoxyquinoline (2-nitroSQ) has been designed, synthesized, and characterized by various spectral techniques. The designed fluorophore displays high selectivity, sensitive fluorescence enhancement (13-fold), and strong binding affinity toward Zn²⁺ among the various biologically significant metal ions examined in ACN-H₂O (9:1, v/v).     

一种香豆素类荧光探针的合成及其性能研究

本文设计合成了一种基于香豆素的荧光探针L,通过氢谱、质谱对其结构进行表征。该探针在DMSO/H_2O(体积比9∶1)体系中对Co~(2+)和Ni~(2+)具有较好的选择性和灵敏度。Co~(2+)和Ni~(2+)的加入使得探针L的荧光发射发生猝灭,其他金属离子未对探针的荧光产生明显的影响。探针L与Co~(2+)和Ni~(2+)的配位比均为1∶2,其对Co~(2+)和Ni~(2+)的检出限分别为1.002×10~(-7)和9.78×10~(-6) mol/L,结合常数分别是1.06×10~6和9.84×10~5 L·mol~(-1)。     

Selective detection of Zn2+ and Cd2+ ions in water using a host-guest complex between chromone and Q[7]

In this paper, the host-guest interaction of cucurbit[7]uril (Q[7]) and chromone (CMO) has been developed as a fluorescent probe for the highly selective detection of Zn²⁺ and Cd²⁺ in water based on a chelation-enhanced fluorescence (CHEF) mechanism. There was a good linear relationship between the fluorescence intensity of the CMO@Q[7] probe and the concentration of Zn²⁺ or Cd²⁺ in the range of 0–3.0 × 10^–5 mol/L and the detection limit for Zn²⁺ and Cd²⁺ was found to be 2.03 × 10^–6 mol/L and 1.89 × 10^–6 mol/L, respectively. The X-ray crystal structure indicated that different coordination fashions were triggered by Zn²⁺ and Cd²⁺ in the CMO@Q[7] complexes, respectively. However, both metal ions coordinated with the carbonyl oxygen of CMO, which was encapsulated in the cavity of Q[7], thus leading to the enhancement of recognition fluorescence emission of CMO.     

A ratiometric fluorescent probe for zinc ions based on the quinoline fluorophore

A ratiometric fluorescent zinc probe 1 of carboxamidoquinoline with a carboxylic acid group was designed and synthesised. Probe 1 exhibits high selectivity for sensing Zn²⁺; about a 13-fold increase in fluorescence emission intensity and an 82?nm red-shift of fluorescence emission are observed upon binding Zn²⁺ in EtOH/H₂O (1?:?1, V/V) solution. The ratiometric fluorescence response is attributed to the 1?:?1 complex formation between probe 1 and Zn²⁺ which has been utilised as the basis for the selective detection of Zn²⁺. The analytical performance characteristics of the proposed Zn²⁺-sensitive probe were investigated. The linear response range covers a concentration range of Zn²⁺ from 2.0?×?10^?6 to 5.0?×?10^?5?mol?L^?1 and the detection limit is 2.7?×?10^?7?mol?L^?1. The determination of Zn²⁺ in both tap and river water samples shows satisfactory results.     

A lysosomal targeting fluorescent probe and its zinc imaging in SH-SY5Y human neuroblastoma cells

A fluorescent probe based PET mechanism was designed, and the probe could image endogenous release of Zn²⁺ upon H₂O₂ stimulation in SH-SY5Y cells.     

Zn^2＋ Recognition by Two New Bipyridine Ligands

IntroductionThehighsensitivityandselectivityofmolecularfluores cenceorluminescencehavebeenwidelyutilizedinmonitoringH+ ,Ca2 + ,Na+ ,Mg2 + ,andotherimportantcationoran ionionsinbiologicalorenvironmentalsystems.Duetothesensitiveresponseofluminescenceuponmicroenviromentalchanges (e .g .polarityofsolvent,pH ,thepresenceofions) ,bipyridinecomplexesofRe(I)andRu(II)withmetaltoligandchargetransferexcitedstatesconstitutealargefami lyofchemicalsensors.1 5Intheseprobingmolecules ,theco operationofthe…     

A functional applied material on recognition of metal ion zinc based on the double azine compound

A colorimetric and fluorescent probe L has been designed and synthesized, which bearing the double azine moiety and showing a detection limit of 2.725 × 10^?7 M towards Zn²⁺. Based on the basic recognition mechanism of ESIPT and CHEF effect, the L has high selectivity and sensitivity to only Zn²⁺ (not Fe³⁺, Hg²⁺, Ag⁺, Ca²⁺, Co²⁺, Ni²⁺, Cd²⁺, Pb²⁺, Cr³⁺, and Mg²⁺) within the physiological pH range (pH = 7.0–8.4) and showed a fluorescence switch. Moreover, this detection progress occured in the DMSO/H₂O ～ HEPES buffer (80/20, v/v; pH 7.23) solution which can conveniently used on test strip.     

A Highly Selective and Sensitive Fluorescent Probe Recognition for Co2+ in Aqueous Media Based on 8‐Hydroxyquinolin‐2‐carbaldehyde‐2‐pyridylformylhydrazone Derivative

A new (8‐hydroxyquinolin‐2‐yl)methylene picolinohydrazide derivative ( L ) has been successfully synthesized and characterized. The probe L displays high selectivity to Co²⁺ in CH₃CN/HEPES (1:1, Ｖ/Ｖ, 10 mmol·L^?1, pH=7.4) with a fluorescence "ON‐OFF" response. The Co²⁺ ion recognition event possesses some distinct features including rapid response, high selectivity and sensitivity, good anti‐interference ability and being applicable within a wide pH range. Based on job's plot and ESI‐MS studies, the 1:1 binding mode was proposed. The binding constant of L and Co²⁺ is 1.63×10⁸ L·mol^?1 and the detection limit is 1.15 µmol·L^?1. Natural water samples experiments revealed that probe L can be potentially applied to the detection of Co²⁺ in real environment.