新型荧光双重敏感响应性壳聚糖衍生物的合成及其发光性能研究

为了开发新型多功能天然高分子荧光材料,合成出一种新型含有环氧丙氧基荧光素(EPF)基团的水溶性壳聚糖衍生物GCS-EPF, 并用IR,1H NMR,UV光谱和荧光光谱等手段进行结构和发光性能的研究. 结果表明, 修饰后水溶性壳聚糖(GCS)的水溶液、 固体粉末和薄膜在520 nm附近具有较强的荧光发射, 其荧光强度不仅在0-60 ℃时对度有较快敏感响应, 同时在pH=0-13.5时对pH也有较快敏感响应, 具有双重敏感响应, 因此可将其作为温度荧光探针和pH荧光探针的高分子材料.     

共聚物Poly(DMAEMA-co-TPE-a)的合成及pH敏感荧光多孔光纤制备

将甲基丙烯酸N,N-二甲氨乙酯(DMAEMA)和微量荧光单体4-丙烯酰氧基四苯乙烯(TPE-a)经自由基共聚合制备了共聚物Poly(DMAEMA-co-TPE-a)(PDT),并通过引入交联剂N,N-亚甲基双丙烯酰胺(Bis)和致孔剂N,N-二甲基甲酰胺(DMF)制备了pH敏感荧光多孔光纤。采用FT-IR、~1 H-NMR、TG和SEM表征了产物的结构,研究了产物的荧光和pH响应性能。研究表明,共聚物PDT具有聚集诱导发光(AIE)效应,并具有较好的pH响应性能;当单体、交联剂和致孔剂的物质的量之比为60∶1∶40时,制备的pH敏感荧光多孔光纤具有较好的耐热性能、内部结构和pH响应性能。     

温度/pH双重荧光响应型水溶性聚合物的合成及在细胞成像中的应用

本文设计并合成了一种基于荧光素和聚乙二醇(PEG)的新型水溶性双重敏感型荧光聚合物材料,以改善荧光素有机小分子在应用中水溶性和生物相容性差、易脱落等缺陷。首先以荧光素为光学基团与环氧氯丙烷反应,合成含有活性环氧环基团的3-环氧丙氧基荧光素(EFlu),然后通过开环反应将EFlu键合到聚乙二醇(PEG)链端,制备得到具有良好水溶性的荧光聚合物(PEG-EFlu)。通过核磁共振、红外光谱和凝胶渗透色谱对EFlu和PEG-EFlu的结构进行表征,通过紫外-可见吸收光谱和荧光光谱测得其吸收-发射光谱和温度/pH双重荧光响应特性。测试结果表明PEG-EFlu水溶液在520 nm附近发射较强荧光,荧光量子产率为0.26,且荧光强度随环境温度的升高而下降。同时,PEG-EFlu水溶液的吸收和荧光强度均随环境pH的升高而增强,吸收波长发生明显红移,可表现出对温度和pH双重敏感响应特性。此外,通过细胞毒性以及细胞成像实验研究了PEG-EFlu的生物应用效果。细胞毒性实验结果显示:经PEG-EFlu染色后的细胞存活率均保持在95%以上,证明该荧光聚合物的低细胞毒性。清晰的荧光成像效果表明PEG-EFlu是一种潜在的生物成像剂,因此有望作为一种敏感响应型生物功能高分子材料应用于细胞示踪和检测等领域。     

利用聚(N-异丙基丙烯酰胺-co-丙烯酸)银纳米团簇构建宽pH响应范围的激发比率型荧光探针EI北大核心CSCD

以N-异丙基丙烯酰胺(NIPAM)和丙烯酸(AA)为pH敏感单体,合成聚(N-异丙基丙烯酰胺-co-丙烯酸),并以此作为模板制备了pH敏感的聚(N-异丙基丙烯酰胺-co-丙烯酸)银纳米团簇。结合了时间分辨荧光、透射电镜(TEM)、红外光谱(FT-IR)方法,对团簇的光学性能进行了研究。团簇的荧光对不同的pH具有灵敏的响应。团簇的荧光强度与pH在4.95~11.02的范围内呈线性关系,高pH(11.02)与低pH(4.95)相比,荧光强度降低约62.4%。同时,305 nm与453 nm处荧光激发强度的比值(I;/I;)与pH在5.94~11.02的宽范围内成线性关系,利用该荧光比率可以对pH进行定量检测。     

N-乙烯基咔唑标记甲基丙烯酸-苊烯共聚物的荧光特性

合成了苊烯(ACE)含量依次为4.3、7.5、15.1及20.8 mol％的N 乙烯基咔唑(NVCz)标记甲基丙烯酸(MAA) 苊烯共聚物(PMAA ACE/NVCz）和ACE含量仅为0.5 mol％的ACE MAA共聚物（PMAA ACE）,研究了各共聚物在稀水溶液中的荧光行为和pH、表面活性剂等对共聚物荧光特性的影响.实验发现:在酸性介质中共聚物的压缩线团构象使激发态缔合物荧光相对增强,ACE到NVCz能量转移效率增加;碱性介质中共聚物构象相对松散,ACE到NVCz能量转移效率降低,因此荧光光谱中NVCz特征几乎消失.阴离子表面活性剂十二烷基磺酸钠(SDS),阳离子表面活性剂十六烷基三甲基溴化铵(AHTB)以及中性表面活性剂吐温80的引入使共聚物在酸性介质中的单体荧光特征增强,ACE到NVCz的能量转移效率下降;在碱性介质中引入AHTB部分中和了共聚物链上的负电荷,使共聚物构象重新卷曲,ACE到NVCz的能量转移效率提高,荧光光谱中NVCz特征重新出现,ACE单体荧光特征相应减少;在碱性介质中引入SDS以及吐温80对共聚物荧光光谱影响不大.     

P(MMA-co-MAh)-g-mPEG的合成及环境敏感性

采用偶合接枝法在甲基丙烯酸甲酯(MMA)和马来酸酐(MAh)无规共聚物上接枝不同含量的聚乙二醇单甲醚(mPEG), 合成具有pH敏感和温度敏感的两亲接枝共聚物P(MMA-co-MAh)-g-mPEG, 并对其进行了红外光谱和核磁共振波谱表征. 通过紫外-可见分光光度计测量了接枝共聚物水溶液的透光率, 结果表明, 接枝聚合物的水溶液呈现低临界溶解温度(LCST), 其LCST值对环境pH值和无机盐等因素敏感, 并可通过控制亲水侧链含量来调节.     

3-甲基丙烯酰胺基-9-乙基咔唑的合成、聚合及其光化学行为研究

含供电子芳杂环的丙烯酰类功能性单体的合成、聚合及光化学行为一直吸引着人们的兴趣 .原因之一是由于这类单体可用一般的自由基引发剂引发聚合 ,其聚合物表现出包括荧光及光引发行为的光化学性质甚被瞩目[1,2 ] .在以往的工作中发现 ,这类给电子性生色团的丙烯酰类单体在相同生色团浓度下的荧光强度明显低于其聚合物或饱和模型化合物 ,即表现出荧光结构自猝灭效应(ＳＳＱＥ) [3～ 5] .咔唑是一个强给电子性芳香杂环化合物 .虽然文献中已有关于含咔唑生色团的丙烯酰类单体报道 ,但很少涉及其荧光或光敏性质 .近来 ,我们合成了多个含有咔唑生…     

甲基丙烯酸N,N-二甲氨基乙酯与丙烯酰β-环糊精共聚水凝胶的合成及其性能研究

用不同的方法合成了两种结构不同的丙烯酰 β 环糊精酯 (β CD 3 A和 β CD 6 A) ,以此为单体与甲基丙烯酸N ,N 二甲氨基乙酯 (DMAEMA)通过氧化还原自由基引发聚合 ,合成出两类含 β 环糊精结构单元的新型水凝胶 .用核磁共振 ,红外光谱及元素分析对两种单体及共聚物的结构和组成进行了表征 .溶胀实验结果表明 ,两类水凝胶均具有较好的pH、温度及离子强度敏感性 ,且因其交联网络结构不同 ,其溶胀性能有所差异     

含生色基团烯类单体及其聚合物——N－丙烯酰基吩■嗪及其聚合物的合成和其荧光性质

含生色基团烯类单体及其聚合物——Ｎ－丙烯酰基吩嗪及其聚合物的合成和其荧光性质＊于淑艳姚光庆李福绵（北京大学化学系北京１００８７１）关键词Ｎ－丙烯酰基吩嗪,紫外－可见光谱,荧光光谱,“结构自猝灭”效应,Ｓｔｅｒｎ－Ｖｏｌｍｅｒ常数,荧光寿命我们曾报...     

N-异丙基丙烯酰胺/丙烯酸十八酯共聚物水溶液胶束及相分离行为研究

合成了N异丙基丙烯酰胺(NIPAM)和丙烯酸十八酯(ODA)的共聚物.利用荧光探针和滴重法研究了NIPAMODA共聚物在水溶液中的胶束形成过程.同时还利用荧光探针法研究了共聚物水溶液在温度升高时出现的LCST(LowerCriticalSolutionTemperature)现象,表明该高分子在温度升高时存在着相分离现象.利用LB技术测量共聚物不溶单分子膜的PA曲线,发现随着温度升高共聚物的单分子膜越来越凝聚的反常现象,这从另一个侧面证实了共聚物NIPAMODA的相分离行为,并对此现象作了讨论.     

Synthesis and characterization of fluorescent starch using fluorescein as fluorophore: potential polymeric temperature/pH indicators

A convenient method for attaching fluorescein (via its epoxy derivate) to natural starch and its temperature/pH‐sensitive qualities of fluorescence were investigated. 3‐epoxypropoxy fluorescein (EPF) was first synthesized through the reaction between fluorescein and epichlorohydrin, and starch‐bearing fluorescein (ST‐EPF) was prepared via ring‐opening reaction with EPF in dimethyl sulfoxide (DMSO) solution, in the presence of NaH as a catalyst. Both of them were characterized by the methods of ¹H NMR, MS, IR, XRD, UV–Vis, and luminescence spectra, respectively. The chemiluminescent and photophysical behaviors of the dye fluorescein derivative and the polymer‐containing fluorescein were studied. The results indicated that ST‐EPF could still provide temperature and pH sensitivity similar to that of fluorescein and could achieve better long‐term stability and fast equilibrium response. ST‐EPF had an excellent linear response between relative fluorescence intensity and temperature in the range of 0–60°C and a nonlinear relationship between relative fluorescence intensity and pH in the wide range of 0.0–12.0, and so it has promise as an optical transducer for temperature and pH value determinations. Copyright © 2008 John Wiley & Sons, Ltd.     

Synthesis and photophysical behaviors of temperature/pH-sensitive polymeric materials. I. Vinyl monomer bearing 9-aminoacridine and polymers

A novel acrylic monomer bearing acridinyl group, acridine-9-N-acrylamide (Ac-9AA) was synthesized from 9-aminoacridine (9AA) and acryloyl chloride in the presence of triethylamine in dry dichloromethane (CCl₂) at room temperature. The synthesized Ac-9AA was identified by IR, MS and ¹H NMR spectra. Homopolymer of Ac-9AA was obtained using AIBN as a thermal initiator in THF under 65-70 °C and the average molecular weights (M_w) of poly(Ac-9AA) obtained was very low, being in the order of ca. 10³. Copolymer of Ac-9AA and acrylamide was synthesized with thermal initiator and poly(Ac-9AA-co-AM) was characterized by the method of IR, UV-vis and DSC. The photophysical behaviors of Ac-9AA and its polymers were explored by recording the fluorescence spectra in solution, solid and film. In addition, the pH and temperature dependence on fluorescence of the water-soluble poly(Ac-9AA-co-AM) were investigated in detail. The results showed that the relative fluorescence intensity of poly(Ac-9AA-co-AM) had an excellent linear response to temperature in the range of 0-60 °C. Moreover, the fluorescence intensity increased continuously from low pH to high pH while the excitation maxima at 388 nm and emission maxima at 400 nm had redshift after the addition of HCl or NaOH, which results from the fact that the predominance of tautomeric forms of Ac-9AA changed at different medium. This investigation may provide a convenient way to prepared multifunctional macromolecule biomaterial bearing aminoacridine to probe pH and temperature in biological system.     

A long lifetime chemical sensor: study on fluorescence property of fluorescein isothiocyanate and preparation of pH chemical sensor

The fluorescence property of fluorescein isothiocyanate (FITC) in acid-alkaline medium was studied by spectrofluorimetry. The characteristic of FITC response to hydrogen ion has been examined in acid-alkaline solution. A novel pH chemical sensor was prepared based on the relationship between the relative fluorescence intensity of FITC and pH. The measurement of relative fluorescence intensity was carried out at 362 nm with excitation at 250 nm. The excellent linear relationship was obtained between relative fluorescence intensity and pH in the range of pH 1-5. The linear regression equation of the calibration graph is F = 66.871 + 6.605 pH (F is relative fluorescence intensity), with a correlation coefficient of linear regression of 0.9995. Effects of temperature, concentration of FITC on the response to hydrogen ion had been examined. It was important that this chemical sensor was long lifetime, and the property of response to hydrogen ion was stable for at least 70 days. This pH sensor can be used for measuring pH value in water solution. The accuracy is 0.01 pH unit. The results obtained by the pH sensor agreed with those by the pH meter. Obviously, this pH sensor is potential for determining pH change real time in biological system.     

Fluorescein–formaldehyde oligomeric pH indicator: Facile synthesis,characterization, and potential application

A kind of fluorescent oligomeric pH indicator (fluorescein–formaldehyde product) was synthesized by the reaction of fluorescein with formaldehyde under alkaline conditions by a one‐pot method. The synthesized product was fully characterized with Fourier transform infrared, ¹H NMR, ultraviolet–visible spectra, luminescence spectra, and matrix‐assisted laser desorption/ionization time‐of‐flight mass spectra. The results indicated that the reaction was a typical phenol–formaldehyde reaction and that the fluorescein–formaldehyde product contained dimer, trimer, tetramer, and even a little octamer. Visible spectra and luminescence spectra showed that the fluorescein–formaldehyde product could still provide pH sensitivity similar to that of fluorescein. In addition, the oligomeric pH indicator immobilized poly(vinyl alcohol) membranes could be easily fabricated and achieved better long‐term stability and fast equilibrium response. Thus, they are promising transparent membranes for optical pH sensors of a wide pH range (0.0–10.0) based on absorption and fluorescence. © 2005 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 43: 3447–3453, 2005     

自组装辅助聚合法制备纤维素基温度/pH双敏感性荧光纳米凝胶

通过自组装辅助的一步法制备了具有温度和pH双重响应性的荧光纳米凝胶(FNG). 首先设计制备了一种水溶性含双键的荧光单体5-丙烯酰胺荧光素(5-AAF), 在水溶性纤维素醚——羟丙基纤维素(HPC)主链上引发5-AAF的接枝共聚, 同时由于5-AAF的疏水作用力诱导共聚物发生自组装, 并通过双官能团交联剂亚甲基二丙烯酰胺(MBA)的加入使自组装纳米聚集体交联, 从而一步制得具有环境响应性的FNG, 该过程在水相中进行, 具有高效、 “绿色”的优点. 研究结果表明, 改变合成过程中HPC的分子量可调控所得FNG的环境响应性. 对FNG环境响应性的研究表明, FNG链段上的亲疏水基团及与水分子间的氢键作用是影响凝胶温度响应性的主要因素. 此外, FNG的荧光在中性及碱性溶液中显著加强, 在酸性溶液中迅速猝灭. 由于FNG的荧光信号对温度和pH的显著敏感性, 且具有较低的细胞毒性, 因此在荧光标记生物检测及生物微环境的温度/pH检测等领域具有广泛的应用前景.     

新型4-羟基香豆素衍生物的微波合成及其光谱性质

以4-羟基香豆素(a)为原料微波辐射合成了具有独特的生理活性和荧光性能的3,3′,3″,3′″-亚乙四基-4-羟基香豆素(b)、3,3′-苯亚甲基-双-4-羟基香豆素(c)和4-羟基香豆素-1,4-萘醌(d)系列4-羟基香豆素衍生物, 采用元素分析、红外光谱、核磁共振及质谱表征了产物的结构, 并对其紫外-可见吸收光谱及荧光光谱性质进行了研究, 探索了化合物的微观结构与其光学性能之间的关系. 研究结果表明, 具有“近平面”、大π共轭和对称型结构的化合物b具有较大的摩尔吸光系数及强荧光特性, 且浓度在0.50~1.50×10^-4 mol/L范围时, 其荧光强度随着浓度的降低而呈线性增加; 在pH=1.81~6.09时, 荧光强度随pH降低而减弱, 在pH 8.36~11.98时, 荧光强度随pH升高而减弱. 此外, 牛血清白蛋白(BSA)及脱氧核糖核酸(DNA)可与该化合物发生相互作用, 进而敏化增强该分子的内源荧光.     

Flow-through bulk optode for the fluorimetric determination of perchlorate

A flow-through fluorescence bulk optode for the flow-injection determination of perchlorate is described. As the active constituents the optode incorporates the lipophilized pH indicator fluorescein octadecyl ester and methyl tridodecyl ammonium chloride, dissolved in a plasticized poly (vinyl) chloride membrane entrapped in a cellulose support. The optode is applied in conjunction with the flow injection technique for perchlorate determination at pH 4.5 (acetic-acetate). The sensor is readily regenerated with the pH 10.4 (TRIS) carrier solution. The analytical characteristics of this optode with respect to perchlorate response time, dynamic measurement range, reproducibility and selectivity are discussed. The proposed FI method is applied to the determination of perchlorate in waters from different sources.     

聚酰胺-胺树形分子荧光性能研究及其在指纹识别领域应用初探

研究了不同温度、浓度、pH值条件下,不同代数、不同端基类型(酯端基和胺端基)的PAMAM(聚酰胺-胺)树形分子的强荧光发射性能.PAMAM树形分子发射强荧光是沿树形结构方向的酰胺基团中的n→π^*跃迁和其密实的球状结构共同作用的结果.树形分子的荧光强度在低pH值或者低温条件下大幅度提高,并且在稀溶液中与浓度成线性关系,在高浓度或者高代数条件下逐渐偏离线性关系.本文还对上述规律的内在机理进行了研究:第一,低pH值条件下,PAMAM树形分子内的叔胺基被氢离子质子化,酰胺荧光发射中心和叔胺基团之间的光诱导电子转移作用被抑制,甚至中断,因此荧光强度急剧升高;第二,随着温度升高,PAMAM树形分子的去活作用增强,荧光强度降低;第三,浓度超过临界点浓度后,由于浓度消光作用,PAMAM树形分子的荧光强度不再随浓度增加而线性增强.最后,将PAMAM树形分子水溶液用于锡纸上油印潜指纹的识别,经处理后的指纹在365 nm紫外光的激发下发射出蓝色荧光,潜指纹被成功地清晰识别.     

Fluorescence emission from PAMAM and PPI dendrimers

A strong fluorescence emission from poly(amido amine) (PAMAM) dendrimers with different terminal groups or a poly(propylene imine) (PPI) dendrimer was studied under different conditions by varying experimental parameters such as pH value, aging time, temperature, and concentration. The increase of fluorescence intensity was fast at low pH or high temperature but linear with respect to dendrimer concentration. It was reasonable that the formation of a fluorescence-emitting moiety had a close relation to protonated tertiary amine groups in PAMAM or PPI dendrimers. Furthermore, oxidation of the tertiary amines was confirmed to play an important role, which was evidently caused by oxygen in air. The results of fluorescence decay indicated that the deactivation of luminescence was raised with increasing temperature. Dendrimers emitted blue photoluminescence along fiber chain templates on a fluorescent microscope.