罗丹明类钯离子荧光分子探针

将烯丙基结构引入到罗丹明螺环中, 合成了荧光增强型钯离子探针RPd4. RPd4表现出对Pd²⁺的专一选择性和对其它阳离子良好的抗干扰能力. 探针荧光强度随着Pd²⁺的加入逐渐增强, 并且在微摩尔级呈现良好的线性关系, 通过拟合计算得到对Pd²⁺的检出限为0.51 μmol/L. RPd4具有较低的pK_a值(3.81±0.02), 说明该探针可以在近中性pH范围内对Pd²⁺进行选择性识别. 该探针还可以提供比色及荧光两种方式对Pd²⁺进行可视化检测.     

罗丹明B衍生物的合成及其对Cu2+,Hg2+的识别研究

以罗丹明B-酰肼和2-羟基-3-喹啉醛缩合反应得到新型罗丹明B衍生物L,其结构经1H NMR,MS及元素分析表征.通过紫外光谱法和荧光光谱法研究了目标物L在CH3CN-H2O溶液中与金属离子的识别特性.结果表明:目标物L作为探针可选择性比色识别Cu2+和荧光识别Hg2+.随着Cu2+或Hg2+的滴加,探针L的内酰胺环结构发生开环,并形成L-Cu2+1∶1配合物或L-Hg2+1∶2配合物,识别过程均是可逆的.     

改进的罗丹明类钯离子荧光分子探针

用罗丹明B与水合肼反应生成的中间体与溴丙炔反应合成了荧光增强型Pd2+检测用探针RPd5。 与Pd2+结合后,RPd5的吸收及荧光强度明显增强,其荧光强度增强约40倍,并使检测时间缩短至约16 min。 探针RPd5对Pd2+的响应灵敏,最低检出限为2.31×10-6 mol/L,可以在较宽pH值范围内特别是近中性pH值环境下有效检测Pd2+。 RPd5可以实现对Pd2+以比色及荧光2种途径的可视化识别,并可应用于土壤、池塘水等实际样品中痕量Pd2+的检测。 RPd5还可制成试纸用于纯净水中Pd2+检测。     

荧光探针可视化检测水溶液中铜离子

设计并合成了一例罗丹明B衍生物D2.作为专一识别Cu2+的探针,在2 ×10-5 mol/L HEPESCH3CN(1:1,V/V,含0.1 mol/L NaN03,pH=7.4)溶液中,D2本身无颜色,荧光微弱;加入Cu+后,溶液很快呈现粉红色,并且荧光增强2.7倍,而对其它常见金属离子都没有响应.紫外吸收光谱显示D...     

近红外Cu2+比率荧光探针合成及其细胞成像

基于罗丹明染料和菁染料衍生物,设计合成了一种新型近红外比率Cu2+荧光探针(RCy7).通过核磁共振和质谱对其结构进行了表征.详细研究了该荧光探针对Cu2+的光学识别性能.在体积比为1∶1的乙腈/Tris-HCl(20 mmol/L,pH=7.2)缓冲溶液中,探针RCy7显蓝色且在722 nm波长处有较强的荧光发射峰,...     

一种罗丹明类Cu~(2+)荧光探针化合物的合成及性能研究

以罗丹明B、水合肼和咔唑为原料,合成了一种新型的荧光增强型Cu2+荧光探针,即4-(N-咔唑基)苯亚甲基罗丹明B腙(CPMRH)。用FTIR、1H NMR和13C NMR对其分子结构进行了表征,并通过荧光光谱对探针的识别性能进行了研究。研究结果表明:探针CPMRH对水溶液中的Cu2+具有良好的选择识别性,且基本不受其他金属离子的影响;探针与Cu2+络合显示粉红色,可以作为一种裸眼检测的试剂用于溶液中Cu2+的检测;当λex=520 nm时,Cu2+水溶液与探针作用可显示橙红色荧光。且Cu2+浓度在1×10-5-5×10-5mol·L-1的范围内,探针的荧光强度与Cu2+浓度呈现出较好的线性关系;Cu2+的最低检出限为5.25×10-7mol·L-1;Job’s曲线表明,探针CPMRH与Cu2+的络合比为1∶1。     

新型水溶性罗丹明类荧光探针的合成及其对游离3价金属离子的识别

以罗丹明B为原料,设计合成一种新型水溶性荧光探针(L),并对其进行表征和光学性能研究.结果表明,探针L能在纯水体系(TRIS,pH=7.4)中快速识别游离M3+(Cr3+、Al3+、Fe3+)金属离子,为荧光增强型探针,具有灵敏度高、抗干扰能力强的特点.探针L对Cr3+、Al3+、Fe3+的荧光检测限分别为1.57×1...     

罗丹明-三嗪衍生物的合成及探针性质

在控制反应温度的条件下, 用罗丹明B酰肼(或罗丹明B乙二胺)选择性分步取代三聚氯氰环上的活性氯, 合成了系列罗丹明-三嗪衍生物. 考察了不同取代获得的衍生物的探针识别性能, 发现所制备的衍生物能高灵敏、高选择性地识别Al³⁺, Cr³⁺或Cu²⁺离子, 是一类性能良好的金属离子荧光和比色增强型探针.     

新型罗丹明B类荧光探针的合成及其对Fe3+识别研究

以罗丹明B和间氨基吡啶缩合反应得到新型罗丹明B衍生物L1,并用1H NMR,IR,HRMS-ESI及X射线对其结构进行了确证.通过荧光光谱法研究了目标物L1在水溶液中与金属离子的识别特性.结果表明目标物L1作为荧光探针可选择性的比色识别Fe3+,并且受常见离子的干扰较小.探针L1的荧光强度与Fe3+浓度(1×10-6~9×10-6 mol/L)呈较好的线性关系.     

罗丹明型简易Pd2+高选择性增强型荧光探针

用罗丹明B与水合肼一步反应简便制得罗丹明衍生物RBH,试验发现:在乙腈-水(CH3CN:H2O=4:1)溶液中,RBH对Pd2+具有高选择性和广泛的pH探测范围,其对常见金属离子不敏感,且常见钠、钾盐阴离子对Pd2+探测也无干扰作用。探针RBH与Pd2+结合后,RBH的吸收和荧光强度显著增加,其荧光强度增加24倍,检测时间仅需25 min。该Pd2+探针响应灵敏,最低检出限为1.76×10-6mol/L。RBH对Pd2+的识别过程为不可逆,且该探针可制成试纸检测mmol/L级别含Pd2+水样。     

Single sensor for two metal ions: colorimetric recognition of Cu2+ and fluorescent recognition of Hg2+

The first novel rhodamine B based sensor, rhodamine B hydrazide methyl 5-formyl-1H-pyrrole-2-carboxylate Schiff base (2) capable of detecting both Cu(2+) and Hg(2+) using two different detection modes has been designed and synthesized. The metal ion induced optical changes of 2 were investigated in MeOH:H(2)O (3:1) HEPES buffered solution at pH 7.4. Sensor 2 exhibits selective colorimetric recognition of Cu(2+) and fluorogenic recognition of Hg(2+) with UV-vis and fluorescence spectroscopy, respectively. Moreover, both of the Cu(2+) and Hg(2+) recognition processes are proven to be hardly influenced by other coexisting metal ions.     

Highly sensitive and selective turn-on fluorescent and chromogenic probe for Cu2+ and ClO- based on a N-picolinyl rhodamine B-hydrazide derivative

A new rhodamine B-based dual-function chromo- and fluorogenic probe for Cu(2+) and ClO(-) has been designed, synthesized, and characterized. The probe comprises a spectroscopic unit of rhodamine B and a Cu(2+)-specific chelating unit of pyridinecarboxamide as well as a ClO(-)-specific reactive moiety of diacylhydrazine, and is a highly selective and extremely sensitive fluorescent and colorimetric sensor for Cu(2+) and ClO(-) in different pH conditions. Compared with the reported probes for Cu(2+) or ClO(-), this is the first chemosensor based on a small molecule that can detect both Cu(2+) and ClO(-), respectively, at 1 nM level.     

基于罗丹明类衍生物荧光增强的水体中Hg^2＋检测

利用一种罗丹明衍生物荧光探针的开环效应检测Hg2＋.在pH 7.0的Tris-HCl缓冲液中,Hg2＋与荧光探针结合导致罗丹明类衍生物开环,溶液颜色由无色变成粉红色,并且发射强的荧光.荧光强度与Hg2＋浓度在20~200 ng/L范围内呈良好的线性关系,检出限为4 ng/mL.实验考察了荧光探针的选择性以及温度、pH、荧光试剂浓度和盐度对Hg2＋检测的影响.结果表明该方法具有反应试剂水溶性好、选择性好和可常温检测等优点.方法应用于自来水、河水和湖水等水体中Hg2＋的检测,获得较好的回收率.     

Dual-active-site Fe/Cu single-atom nanozymes with multifunctional specific peroxidase-like properties for S2− detection and dye degradation

Designing single-atom nanozymes with densely exposed metal atom active sites and enhancing catalytic activity to detect pollutants remain a serious challenge. Herein, we reported a single-atom nanozyme with layered stacked Fe/Cu dual active sites (Fe/Cu-NC SAzyme) synthesized via hydrothermal and high-temperature pyrolysis using folic acid as a template. Compared with Fe-NC and Cu-NC SAzyme, Fe/Cu-NC SAzyme has higher peroxidase-like activity, which indicates that the doping of synthesized Fe/Cu bimetals can improve the catalytic activity and that the atomic loading of Fe and Cu in Fe/Cu-NC is 5.5 wt% and 2.27 wt%, respectively. When S²⁻ is added to the Fe/Cu-NC catalytic system, a high-sensitivity and high-selectivity S²⁻ colorimetric sensing platform can be established, with a wide linear range (0.09–6 µmol/L) and a low detection limit (30 nmol/L), which can be used to detect S²⁻ in environmental water samples. What's more, the Fe/Cu-NC SAzyme can activate peroxymonosulfate (PMS) to degrade 99.9% of rhodamine B (RhB) within 10 min with a degradation kinetics of 0.5943 min⁻¹. This work details attractive applications in Fe/Cu-NC SAzyme colorimetric sensing and dye degradation.     

基于银/铂纳米模拟酶表面修饰的铜离子比色检测方法研究

通过对银/铂纳米簇(Ag/Pt NCs)的表面修饰调控其催化活性,建立了一种高灵敏的比色法检测Cu2+.巯基丙酸能够抑制Ag/Pt NCs的催化活性,而巯基丙酸与Cu2+作用后,将导致上述抑制作用减弱.基于上述原理,通过测量Ag/Pt NCs 催化TMB-H2O2反应产生的显色信号,可以实现Cu2+的比色检测.本方法检测Cu2+的线性范围为10～100 nmol/L,检出限(3σ)为5.0 nmol/L.将本方法应用于实际水样中Cu2+的检测,结果表明,本方法具有操作简单、成本低、灵敏度高、特异性好等优点.     

亚微米级Cu0/Fe3O4复合物多相催化过一硫酸盐降解有机污染物

过一硫酸盐催化活化技术因其可产生强氧化性活性氧化物种,可快速氧化降解并矿化有机污染物的优异性能而备受关注.本文成功制备了亚微米级Cu0/Fe3O4复合物,发现其能多相催化过一硫酸盐产生单线态氧降解有机污染物.首先,以CuCl2·2H2O,FeCl2·4H2O和FeCl3·6H2O为铜源和铁源,水合肼为还原剂,采用水热法在180oC反应24 h制备了亚微米级磁性Cu0/Fe3O4复合物.表征结果显示,所制材料为Cu0和Fe3O4的复合物,颗粒大小约为220 nm;单一相Cu0和Fe3O4晶体粒径分别为33.8和106.2 nm,而Cu0/Fe3O4复合物中Cu0和Fe3O4晶体粒径分别减为20.8和31.9 nm.这表明Cu0和Fe3O4复合降低了Cu0和Fe3O4晶体粒径,有利于Cu0和Fe3O4的分散.BET测试结果表明,Cu0/Fe3O4复合物比表面积为4.6 m2/g,与Cu0颗粒的(4.2 m2/g)相当,但远小于Fe3O4的(15.6 m2/g).制备的Cu0/Fe3O4复合物可有效催化过一硫酸盐产生单线态氧降解罗丹明B、亚甲基蓝、金橙II、苯酚和对氯酚.当Cu0/Fe3O4复合物的用量为0.1 g/L,过一硫酸盐浓度为0.5 mmol/L和初始pH为7时,Cu0/Fe3O4复合物可在30 min内完全降解20μmol/L的罗丹明B、亚甲基蓝、金橙II以及0.1 mmol/L的苯酚和对氯酚.对比试验显示,在相同条件下,Cu0和Fe3O4颗粒分别可以降解28%和20%的罗丹明B.这表明Cu0/Fe3O4复合物中的Cu0和Fe3O4晶体在催化过一硫酸盐降解污染物的反应中具有协同作用,这主要来源于Cu0/Fe3O4复合物中Cu0和Fe3O4的晶体粒径变小和更好的分散.采用分光光度法测定了降解反应液中铜和铁离子的溶出量.当Cu0/Fe3O4复合物的用量为0.1 g/L,过一硫酸盐浓度为0.5 mmol/L和初始pH为7时,反应60 min后,降解液中铜和铁离子的浓度分别为0.22和0.1 mg/L,仅占复合物中总铜和总铁量的1.1%和0.2%,表明Cu0/Fe3O4复合物具有较强的化学稳定性.所制Cu0/Fe3O4复合物具有超顺磁性,借助磁场实现快速分离回收,可循环利用五次,表明其优越的催化稳定性.通过加入乙醇和叠氮化钠,考察了Cu0/Fe3O4复合物催化活化过一硫酸盐体系中的活性氧化物种.发现100 mmol/L乙醇的加入对污染物的降解无明显影响,而加入同等量的叠氮化钠可完全抑制污染物的降解,表明Cu0/Fe3O4复合物催化活化过一硫酸盐产生的主要活性氧物种为单线态氧.采用电子顺磁共振谱进一步证实了单线态氧的生成.基于以上研究,Cu0/Fe3O4复合物催化活化过一硫酸盐的机理为Cu0/Fe3O4作为一个电子媒介加速过一硫酸盐和污染物之间的电子转移,从而导致污染物被快速降解.该反应机理不同于常见的金属催化过一硫酸盐产生硫酸根和羟自由基的反应机理.我们推测,电导性优良的Cu0在此催化反应中起着关键性作用.本催化方法可作为一种绿色的氧化技术用于环境污染物的氧化降解处理.     

Highly sensitive and selective optical chemosensor for determination of Cu2+ in aqueous solution

A highly selective and sensitive rhodamine-based colorimetric chemosensor (1) for quantification of divalent copper in aqueous solution has been investigated in this work. It was designed using salicylaldehyde hydrazone and rhodamine 6G as copper-chelating and signal-reporting groups, respectively. In environmentally friendly media (50% (v/v) water/ethanol and 10 mM NaAc–HAc neutral buffer (pH 7.0)), the sensor exhibited selective absorbance enhancement to Cu²⁺ over other metal ions at 529 nm, with a dynamic working range of 0.05–5.00 μM and a detection limit of 10 nM Cu²⁺, respectively. To achieve fluorometric determination of Cu²⁺, the Cu²⁺-induced absorbance enhancement of 1 was efficiently converted to fluorescence quenching by fluorescence inner filter effects using rhodamine B (RB) as a fluorophore. The selectivity and sensitivity of fluorescence analysis were similar to those of absorptiometric measurement. Both absorptiometric and fluorometric methods were successfully applied to the detection of Cu²⁺ in three water samples.     

毛细管电泳法间接测定茶水、矿泉水中金属离子

采用毛细管电泳间接紫外检测技术测定了茶水、矿泉水中金属离子的含量.研究了电泳液组成和最佳实验条件.结果表明：采用pH=4.82含有浓度为6.0 mmol/L咪唑的乙酸缓冲液作为电泳液,压力进样（30 mbar×5 s）,未涂层石英毛细管柱75μm×50 cm,分离电压12 kV,检测波长210 nm,柱温为25℃实验条件下,6 min内实现K＋、Ca2＋、Na＋、Mg2＋、Zn2＋5种离子的分离和测定.保留时间的相对标准偏差（RSD）小于0.5%,峰面积RSD小于5%（n=7）,最低检测限依次为0.002、0.001、0.001、0.010和0.050 mg/L.该方法用于茶水、矿泉水中金属离子含量的测定,回收率95.6%-108.6%,结果良好.     

Analytical Raman spectroscopic discrimination between yellow pigments of the Renaissance

A rhodamine spirolactam/2-hydrazinopyridine derivative was synthesized and characterized, which exhibited high selectivity to Cu(2+) over other metal cations. The Cu(2+) recognition of this rhodamine derivative could be detected by fluorescence spectra, absorption spectra and an obvious color change which was observed easily by naked-eyes. The binding of this rhodamine derivative to Cu(2+) is instantaneous and sensitive. Moreover, a linear relationship was found between the fluorescence intensity at 575 nm from 0.5×10(-6) M to 3.0×10(-6) M of Cu(2+) concentration, and the limit of detection (LOD) was at low concentration of 2.11×10(-8) M, this would benefit for the establishment of standard working curves in practical Cu(2+) detection. Additionally, we synthesized rhodamine spirolactam/2-aminomethylpyridine derivative and rhodamine spirolactam/phenylhydrazine derivative as analogs for elucidate the structure-recognition relationships. Finally, we prepared the test strips of rhodamine spirolactam/2-hydrazinopyridine derivative for practical chromogenic the Cu(2+) detection.     

Fluorogenic Detection of Human Serum Albumin Using Curcumin-Capped Mesoporous Silica Nanoparticles

Mesoporous silica nanoparticles loaded with rhodamine B and capped with curcumin are used for the selective and sensitive fluorogenic detection of human serum albumin (HSA). The sensing mesoporous silica nanoparticles are loaded with rhodamine B, decorated with aminopropyl moieties and capped with curcumin. The nanoparticles selectively release the rhodamine B cargo in the presence of HSA. A limit of detection for HSA of 0.1 mg/mL in PBS (pH 7.4)-acetonitrile 95:5 v/v was found, and the sensing nanoparticles were used to detect HSA in spiked synthetic urine samples.