喹啉酮-香豆素类Hg2+比色荧光探针的合成及应用

设计合成了新型喹啉酮-香豆素类比色荧光探针7-二乙氨基-3-[3-(7-二乙氨基)香豆素基-3-氧代丙烯基]喹啉-2-酮(QCO), 用于检测水溶液中的Hg²⁺. 探针QCO对Hg²⁺表现出高选择性和强抗干扰性. 此外, Hg²⁺引起探针QCO溶液的颜色变化明显, 可裸眼识别. 比色法中, 吸收值比(A₅₀₀/A₃₈₀)与Hg²⁺浓度呈良好的线性关系, 其检出限为2.62×10^-8 mol/L. 荧光法中, 探针QCO对Hg²⁺的检出限为5.42×10^-8 mol/L. 经等摩尔变化( Job’s Plot)法、 质谱及红外光谱验证, 探针QCO与Hg²⁺形成络合比为1∶1(摩尔比)的络合物. 硅胶板实验和加标回收率实验结果表明, 探针QCO可用于检测实际水样中的Hg²⁺.     

冠醚功能化的栅控石墨烯场效应晶体管的制备及对汞离子的检测

Hg²⁺是一种具有生物蓄积性和毒性的重金属, 对环境和人类健康均可造成严重损害. 因此, 开发便捷的Hg²⁺传感器非常必要. 本文基于溶液栅控石墨烯场效应晶体管的优异性能, 通过氮硫杂冠醚的尺寸效应以及冠醚与Hg²⁺的螯合作用来特异性识别Hg²⁺, 制备了一种冠醚功能化栅极的溶液栅控石墨烯场效应晶体管(SGGT)传感器. 该SGGT传感器因其固有的信号放大功能而比传统电化学检测Hg²⁺更灵敏, 其检出限为1×10^-12 mol/L, 比传统电化学传感器降低了2~3个数量级, 在1×10^-12~1×10^-7 mol/L检测范围内, 狄拉克点的变化值与目标物浓度的对数值之间存在良好的线性关系, 同时具有极高的选择性. 对实际湖水样品的检测效果良好, 对Hg²⁺的检测标准偏差为1.10%~3.77%. 本文结果表明, 该晶体管传感器可以对Hg²⁺进行高选择和高灵敏检测.     

A new rhodamine-based fluorescent chemosensor for mercury in aqueous media

A new fluorescent ‘‘on–off' chemosensor for Hg2+initiated by a derivative of rhodamine B was designed and synthesized. Compound 1 exhibited high sensitivity and selectivity for Hg2+over other commonly coexistent metal ions in aqueous media. Upon the addition of Hg2+, the spirocyclic ring of probe is opened and a significant enhancement of visible color and fluorescence in the range of 500–600 nm is observed. The colorimetric and fluorescent response to Hg2+can be conveniently detected by the naked eye, which provides a facile method for visual detection of Hg2+. From the molecular structure and spectral results of 1, an irreversible, hydrolysis, desulfurization reaction mechanism is proposed.     

A Smartphone-assisted Paper-based Analytical Device for Fluorescence Assay of Hg2+

Rapid, efficiency and portable detection systems in low-resource settings with limited laboratory equipment and technical expertise are urgently needed. Herein, an integrated platform composed of a paper-based analytical device and a smartphone detection system for Hg²⁺ onsite testing was developed. Nitrogen-doped carbon dots(N-CDs) were synthesized by a simple hydrothermal method using citric acid as the carbon source and ethanediamine as the nitrogen source, which gave out bright blue fluorescence under the excitation at 350 nm UV light and the absolute fluorescence quantum yield was 17.1%. The fluorescence of the prepared N-CDs can be effectively quenched by Hg²⁺. In addition, an external attachment of smartphone for illumination and external light interference was designed to trace the fluorescence signals, and a software application of Android system with simple operation program was developed to perform snapshot and image processing. The smartphone-assisted detection system was combined with the N-CDs decorated paper chip to achieve the sensitive detection of Hg²⁺ in water samples. This integrated method for reliable sensing of Hg²⁺ shows a good linear detection range of 10-800 μmol/L(R²=0.9595) with detection limit of 1.07×10^-8 mol/L.     

A rhodamine derivative for Hg2+-selective colorimetric and fluorescent sensing and its application to in vivo imaging

A rhodamine-based sensor has been developed for the detection of mercuric ions. The colorimetric and fluorescence responses, allowing naked-eye detections, are based on Hg~(2+)-induced opening of the rhodamine spirocycle. Among all the testes ions, only Hg~(2+)generated a significant fluorescence enhancement of up to 300-fold, with a bright yellow–green emission. This sensor was a low toxic compound, and was successfully applied in the in vivo imaging of Hg~(2+)in Spill 2 cells and C. elegans. This approach provides a sensitive and accurate method for the estimation of Hg~(2+)in environmental, tobacco and biological applications.     

Thiourea functionalized CdSe/CdS quantum dots as a fluorescent sensor for mercury ion detection

CdSe/CdS quantum dots(QDs) functionalized by thiourea(TU) were synthesized and used as a fluorescent sensor for mercury ion detection.The TU-functionalized QDs were prepared by bonding TU via electrostatic interaction to the core/shell CdSe/CdS QDs after capping with thioglycolic acid(TGA).It was observed that the fluorescence of the functionalized QDs was quenched upon the addition of Hg~(2+).The quantitative detection of Hg~(2+) with this fluorescent sensor could be conducted based on the linear relationship between the extent of quenching and the concentration of Hg~(2+) added in the range of1-300 μg L~(-1).A detection limit of 0.56 μg L~(-1) was achieved.The sensor showed superior selectivity for Hg~(2+) and was successfully applied to the determination of mercury in environmental samples with satisfactory results.     

高选择性检测Hg2+的喹啉酮衍生物荧光探针的合成及应用

设计合成了一种以喹啉酮为荧光团,具有新型结构的荧光探针（E）-N-（4-甲基-2-氧代-1,2-二氢喹啉-7-基）-3-（3-苯基-[1,2,4]三唑[3,4-b][1,3,4]噻二唑-6-基）丙烯酰胺（MNT）.研究结果表明,MNT可通过不饱和酰胺键异构化后与Hg²⁺配位,从而产生显著的荧光猝灭.1,2,4-三唑[3,4-b]-1,3,4-噻二唑缺电子的特征有助于提高猝灭效果的同时,能提供与Hg²⁺配位的杂原子.MNT探针对Hg²⁺具有高选择性、较高的量子产率和较强的抗干扰性,检测限为6.35×10^-8 mol/L,响应时间25 s.进一步研究发现,MNT在pH=4~13范围内均能特异性检测Hg²⁺.基于核磁滴定实验结果推测了该探针荧光检测Hg²⁺的机理,并由Job’s曲线确定了MNT与Hg²⁺之间的配位比为2：1.MNT在实际水样中的应用结果表明其可作为检测Hg²⁺的荧光探针.     

Organic-inorganic hybrid fluorescent sensor thin films of rhodamine B embedded Ag-SBA 15 for selective recognition of Hg (Ⅱ) ions in water

Nowadays, the rapid and effective detection of low doses of heavy metal pollutants in contaminated water is a timely challenge in environmental pollution research. In this study, a rapid and highly sensitive assay for the detection of Hg~(2+)based on quenching of metal-enhanced fluorescence of rhodamine B(RB)has been fabricated. RB and silver nanoparticle were incorporated into the mesoporous siliceous framework spin cast on a quartz glass through post-synthetic incorporation method. The morphology and crystallinity of mesoporous structure and Ag nanoparticle were characterized by transmission electron microscopy and X-ray diffraction analyses. Photoluminescence assays on the hybrid thin film of RB-Ag-SBA15 showed a high enhancement when compared to the intensity of silver free SBA15-RB in the wavelength of 575 nm. The fluorescence of RB-Ag-SBA15 thin film decreased gradually with the increase in the concentration of Hg~(2+)and the detection limits were 10.54 nmol/L. Furthermore, the fluorescence intensity increased linearly with the concentration of Hg~(2+)in the range from 1.0 ? 10à8mol/L to10 ? 10à8mol/L, with a response time of a few seconds. In addition, this system offers a high selectivity over interfering cations such as Cd~(2+) and Pb~(2+). Overall, we have developed an optical assay having a wellordered mesoporous SBA15 containing Ag-RBfor selective detection of Hg~(2+)in aqueous solution. The scheme combines the advantages of specific binding interactions between Hg~(2+)and RB molecule and optical emission properties of RB. The method is suitable for a single-shot and irreversible analytical assay in a quartz glass/microtiter plate.     

A squaraine based fluorescent probe for mercury ion via coordination induced deaggregation signaling

Due to the high affinity between dithiocarbamate(DTC) and Hg2+,a fluorescent probe based on squaraine chromophore with DTC side arm for Hg2+via coordination induced deaggregation signaling has been designed and synthesized.Squaraine has a high tendency to aggregate in aqueous solution,and such self-aggregation usually results in a dramatic absorption spectral broadening with fluorescence emission quenching.The combination of the DTC side arm of the probe with Hg2+induces steric hindrance,leading to the deaggregation of the dye complex,companying with a fluorescence emission restoration.In EtOH–H2O(20:80,v/v) solution,this ‘‘turn on' fluorescent probe has high selectivity and sensitivity toward Hg2+over other metal ions,and the limit of detection for Hg2+was estimated as2.19 ? 10à8mol/L by 3s/k.     

具有荧光增强性能的罗丹明B衍生物的合成及其对汞离子的检测

利用汞离子可以诱导罗丹明B衍生物的螺环结构发生开环反应并产生荧光增强效果这一特性,设计并合成了两种新型的荧光化学传感器2-噻吩甲醛罗丹明B酰肼(RhBTh)和苯甲醛罗丹明B酰肼(RhBAr),并研究了二者在汞离子检测中的应用.研究结果表明,RhBTh与RhBAr对汞离子均表现出非常好的荧光增强效果,检测过程中其它金属离子不会对检测结果产生明显的干扰.二者对汞离子的检测限分别为7.8 nmol/L和12.5 nmol/L.实验表明RhBTh和RhBAr对汞离子均具有良好的灵敏度和选择性.     

基于牛血清白蛋白功能化金纳米棒的荧光探针测定Hg2+

建立了一种以牛血清白蛋白功能化的金纳米棒(BSA-Cys-GNRs)为荧光探针检测Hg²⁺的新方法。以半胱氨酸作为连接臂成功将牛血清白蛋白修饰在金纳米棒表面,通过紫外可见吸收光谱、荧光光谱、红外光谱和荧光倒置显微镜等多种分析方法对材料进行表征。研究发现,在295nm波长光激发下,BSA-Cys-GNRs探针在338nm显示强荧光,而Hg²⁺能够有效地猝灭BSA-Cys-GNRs的荧光。对一系列影响猝灭效果的因素进行考察,得出pH 4.0、孵育时间5.0min为最佳检测条件。Mn²⁺、K⁺、Ni²⁺、Na⁺、Cr³⁺、Cd²⁺、Mg²⁺、Cu²⁺、Ca²⁺、Al³⁺和Zn²⁺对BSA-Cys-GNRs的荧光信号没有明显的影响。当Hg²⁺的浓度为0.04444~8.888μmol·L^-1时,荧光猝灭效率与Hg²⁺的浓度之间存在良好的线性关系,检测限为8.08nmol·L^-1。将该方法用于环境水样中Hg²⁺的检测,回收率为98.9%~105.0%。     

磁性硫化铜复合纳米材料的合成及其对水中汞离子的特异性吸附

设计和合成吸附速率快、选择性好的吸附富集材料对Hg²⁺的高效吸附和精确检测具有重要意义。 本文中,采用简单、经济的策略制备了磁性硫化铜复合纳米材料(Fe₃O₄@SiO₂@CuS),并且通过一系列吸附实验考察了核-壳结构的Fe₃O₄@SiO₂@CuS对水溶液中Hg²⁺的吸附性能。 结果表明,Fe₃O₄@SiO₂@CuS显示出了快速的吸附富集速率和良好的吸附容量。 同时,在多种金属离子共存的情况下,该材料表现出了优异的吸附选择性,Hg²⁺吸附率高达99.9%。 由于该材料具备磁性,因此通过外加磁场即可实现吸附剂与水体简便快速的分离。 以上结果表明,磁性金属硫化物纳米材料在吸附富集和检测领域具有良好的应用前景。     

新型荧光碳点的制备及其在Hg2+检测中的应用

以中药材川佛手为碳源,通过高温热解产生的烟制备了平均粒径为6 nm的新型荧光碳点,其最大激发波长285 nm,最大荧光发射波长340 nm。 基于碳点良好的荧光性能及Hg²⁺对碳点荧光的猝灭作用,建立了检测Hg²⁺的新方法。 结果表明,在0.2 mol/L磷酸盐缓冲溶液(pH=7.0)中,响应时间为2 min时,该方法具有良好的选择性和抗干扰能力,检测Hg²⁺浓度的线性范围为0.2~40 μmol/L,相关系数为r=0.9996,检出限为0.052 μmol/L。 当加入2.0和40.0 μmol/L Hg²⁺到实际水样后,相对标准偏差(RSD)和加标回收率分别为0.3%~2.4%和99.5%~101.1%,可用于实际水样中Hg²⁺的分析检测。     

湿法脱硫浆液中Hg2+的还原机制研究

针对燃煤电厂湿法脱硫浆液中Hg²⁺易被还原的特性,研究Hg²⁺在模拟湿法脱硫系统中的迁移机制,考察了浆液温度、pH值以及SO₃^2-、Cl^-、Ca²⁺、Mg²⁺浓度等因素对Hg²⁺还原性能的影响。结果表明,Hg²⁺还原率随着浆液中SO₃^2-浓度的增大而降低;pH值对Hg²⁺的还原呈先增加后降低的趋势,在pH值为5.5时还原率最高;温度的升高不利于浆液中稳定的二价汞盐络合物存在,导致Hg²⁺还原率增加;Ca²⁺、Mg²⁺以及Cl^-浓度的增加有利于形成稳定化合物,从而抑制Hg²⁺的还原。     

Micro-columns packed with Chlorella vulgaris immobilised on silica gel for mercury speciation

A method has been developed for mercury speciation in water by using columns packed with Chlorella vulgaris immobilised on silica gel. The method involves the retention of CH₃Hg⁺ and Hg²⁺ in micro-columns prepared by packing immobilised algae in polypropylene tubes, followed by selective and sequential elution with 0.03 and 1.5 M HCl for CH₃Hg⁺ and Hg²⁺, respectively. The adsorption capacity of the micro-algae for Hg²⁺ and CH₃Hg⁺ has been evaluated using free and immobilised C. vulgaris. The efficiency uptake for both species at pH 3 was higher than 97%. Studies were carried out on the effect of retention and elution conditions for both species. Furthermore, the stability of mercury species retained on algae-silica gel micro-columns and lifetime of the columns were also investigated. Hg²⁺ showed a higher stability than CH₃Hg⁺ at 0 °C (21 and 3 days, respectively) and a better lifetime than for the organic species.

The developed method was applied to the analysis of spiked tap, sea and wastewater samples. Recovery studies on tap and filtered seawater provided results between 96 ± 3 and 106 ± 2 for Hg²⁺ and from 98 ± 5 to 107 ± 5 for CH₃Hg⁺, for samples spiked with single species. For samples spiked with both CH₃Hg⁺ and Hg²⁺, the average recoveries varied from 96 ± 5 to 99 ± 3 and from 103 ± 6 to 115 ± 5 for Hg²⁺ and CH₃Hg⁺, respectively. However, the percentages of retention and elution on wastewater and unfiltered seawater were only adequate for the inorganic species.     

A colorimetric chemosensor based on new water-soluble PODIPY dye for Hg2+ detection

The phosphorus-containing PODIPY 1 as a chemosensor can detect Hg~(2+) by a color change from pink to violet red without the use of any instrumentation. PODIPY 1 was selective to Hg~(2+)with a remarkable absorption change, and addition of other relevant metal ions caused almost no absorption change. The new PODIPY dye 1 was sensitive to various concentrations of Hg~(2+). The energy gap between the HOMO and LUMO of the metal complex 1–Hg~(2+)is smaller than that of chemosensor 1, which is in good agreement with the red shift in the absorption observed upon treatment of 1 with Hg~(2+). The 1-based test strips were easily fabricated and low-cost, useful in practical and efficient Hg~(2+)test kits.     

Effects of pH and acetylation on Hg(2+)-induced purple to blue transition in bacteriorhodopsin

Effects of Hg²⁺ ions on the absorption spectrum of bacteriorhodopsin have been measured at different pH values and after acetylation. UV-difference spectroscopy and CD spectra show that Hg²⁺-induced color change is essentially similar to that caused by removal of cations or acidification. The ability of Hg²⁺-induced purple-to-blue transition is pH-dependent and exhibits a maximum at pH 5.5. Acetylation influences the absorption in the same way as Hg²⁺ ions and accelerates Hg²⁺-induced purple to blue transition. All these results strongly suggest that the Hg²⁺ effect is not a specific binding but just a replacement of intrinsic cations on the membrane surface, where they form a double layer. The composition of the double layer determines the surface pH on the membrane, which affects the color of the bacteriorhodopsin.     

Synthesis and properties of three novel rhodamine-based fluorescent sensors for Hg2+

Three novel rhodamine-based Hg~(2+) fluorescent sensors were designed and synthesized. The sensors could work in semi-aqueous solutions with nearly neutral p H and showed high selectivity and sensitivity to Hg~(2+) with remarkable fluorescence enhancement. For these three sensors, the linear working range broadened(0–80, 0–100 and 0–140 μmol/L, respectively) and the sensitivity increased(7.7, 15.5 and 17.6 folds of the fluorescence enhancement and 512, 66.2 and 37.6 ppb of the detection limit) with the rising of the thiourea-unit numbers. Furthermore the sensors exhibited excellent interference immunity to multiple environmentally and biologically relevant metal ions. Pond and tap water assay showed good practicability of the sensors. The number of the bound Hg~(2+) equaling to that of the thiourea units and the irreversible recognition process implied a new interaction way between Hg~(2+) and the sensor.     

高选择性快速识别汞（Ⅱ）离子的磺酰腙型探针的合成及在吸附中的应用

以苯磺酰肼和1-芘甲醛为原料,设计合成了一种结构简单的可快速识别汞（Ⅱ）离子（Hg²⁺）的磺酰腙型荧光探针（Z）-N'-（芘-1-基亚甲基）苯磺酰腙（BSB）,并通过氢核磁共振波谱仪（¹H NMR）对其结构进行了表征。BSB对Hg²⁺展示出高选择性、专一性和快速响应性,检测限为2.07×10^-7 mol/L,响应时间仅需15 s。通过job's曲线,¹H NMR滴定实验和高分辨率质谱（HRMS）对响应机理进行了探究,并且BSB可以检测不同水样中的Hg²⁺。有趣的是,将BSB和聚丙烯酰胺（PAM）相掺杂制备出了对Hg²⁺具有高去除性能的新型高分子材料（PAM?BSB）,去除率达到99.63%,并通过扫描电子显微镜（SEM）对PAM?BSB吸附前后的微观形貌进行了观察。     

Rhodamine 6G-based Chemosensor for the Visual Detection of Cu2＋ and Fluorescent Detection of Hg2＋ in Water

A novel water soluble chemosensor 1 based on rhodamine 6G spirolactam scaffold has been synthesized and characterized.Upon addition of a wide range of the environmentally and biologically relevant metal ions,chemosensor 1 shows a colorimetric selective Cu2＋ recognition from colorless to pink confirmed by UV-Vis absorption spectral changes,while it also exhibits a fluorometric selective Hg2＋ recognition by fluorescence spectrometry.An absorption enhancement factor over 17-fold with 1-Cu2＋ complex and a fluorescent enhancement factor over 45-fold with 1-Hg2＋ complex were observed.Their recognition mechanisms were assumed to be a 1：1 stoichiometry for 1-Cu2＋ complex and a 1：2 stoichiometry for 1-Hg2＋ complex,respectively,which were proposed to be different ligation leading to the ring-opening of rhodarnine 6G spirolactam.Furthermore,the detection limits for CU2＋ or Hg2＋ were 3.3 × 10-8 or 1.7x 10-7 mol/L,respectively.