双染料敏化光致聚合物的光化动力学研究

研究了光致聚合物的光化学反应理论模型及其动力学参量。合成了染料藻红B和亚甲基蓝作为联合光敏剂共同敏化的全息光存储光致聚合物材料。对材料测试分别得到在曝光波长为633 nm与曝光强度为65 mW/cm2时,透射率随曝光条件的变化关系以及材料各光化学参量。结果表明,随着曝光波长与曝光强度的增加,光致聚合物的光化漂白速率常数k与量子产率Φ增大,当曝光强度为65 mW/cm2时透射率在短波长下出现了下降,光化漂白速率常数k出现负值,而摩尔吸收系数ε在条件不同时则表现了不同的变化趋势。     

丙烯酰胺基光致聚合物全息光栅的动力学研究

研究了光致聚合物的光化学反应和单体扩散反应的理论模型及动力学参数. 合成了以聚乙烯醇为粘结剂,三乙醇胺为引发剂,藻红B敏化的丙烯酰胺基光致聚合物全息存储材料,通过对测定的透过率和衍射效率进行曲线拟合,分析了染料浓度对光致聚合物的摩尔吸收系数ε、量子产率Φ和光化漂白速率常数k等光化动力学参数的影响规律,以及曝光强度对聚合反应速率k₀、扩散时间常数τ_D和最大折射率调制度Δn等扩散动力 关键词： 光致聚合物 透过率 衍射效率 动力学参数     

基于荧光强度比值法可用于现场测量的低成本聚合物光纤温度传感器

基于荧光强度比值法,设计了一种使用两种荧光染料的光纤温度传感器.实验中,罗丹明B和罗丹明110分别为对温度敏感和对温度不敏感的荧光传感物质,利用聚合物光纤来传导激发光及接收荧光.由于两种染料的荧光谱峰相距60 nm,因此容易将二者对应的荧光谱分开.通过确定能代表两种染料的最优荧光光谱范围,获得具有良好线性度的温度-荧光强度标定曲线.实验研究了不同浓度的荧光染料对标定曲线的影响,当染料浓度为0.3 g/L时,可获得0.28℃的最小均方误差及0.0128/℃的灵敏度.此外,该传感器还具备一定的抗光源扰动和抗荧光染料漂白的能力.     

基于荧光强度比值法可用于现场测量的低成本聚合物光纤温度传感器（英文）

基于荧光强度比值法,设计了一种使用两种荧光染料的光纤温度传感器.实验中,罗丹明B和罗丹明110分别为对温度敏感和对温度不敏感的荧光传感物质,利用聚合物光纤来传导激发光及接收荧光.由于两种染料的荧光谱峰相距60nm,因此容易将二者对应的荧光谱分开.通过确定能代表两种染料的最优荧光光谱范围,获得具有良好线性度的温度-荧光强度标定曲线.实验研究了不同浓度的荧光染料对标定曲线的影响,当染料浓度为0.3g/L时,可获得0.28℃的最小均方误差及0.0128/℃的灵敏度.此外,该传感器还具备一定的抗光源扰动和抗荧光染料漂白的能力.     

氧氢氧化铁对偶氮染料脱色作用的红外光谱研究

采用傅里叶变换显微红外光谱仪(FTIR),研究了两种纳米氧氢氧化铁矿(α-FeOOH),正方纤铁矿(β-FeOOH)对偶氮染料分子甲基橙和酸性红G的脱色作用.结果表明,(1)甲基橙和酸性红G在氧氢氧化铁表面位＞(＞为α或β)FeOH易形成配合物,尤其是具有两个-SO3 Na基团双齿结构的酸性红G易与纳米氧氢氧化铁发生配合反应被化学吸附,而具有较高的脱色率.(2)吸附脱色2 h后氧氢氧化铁的红外光谱中出现了1 033和1 030 cm-1的-SO3Na基团的特征波数,而1 450～1 400 cm-1的偶氮双键的振动吸收峰减弱或者消失,表明偶氮染料分子是通过带负电的-SO3 Na基团吸附到氧氢氧化铁表面,有机还原性配体与氧氢氧化铁表面Fe3 原子中心电荷转移的过程能一定程度上使偶氮键断裂而使染料发生氧化还原脱色.由以上结果推论:两种偶氮染料的脱色是选择性的化学吸附与氧氢氧化铁界面的氧化还原降解共同作用的结果.     

新型红外超快速可饱和吸收染料的光谱及微微秒弛豫时间的测量

本文着重介绍了几种新型的稳定红外超快速可饱和吸收染料的光谱及其微微秒弛豫时间的测量.讨论了有关的实验技术.通过相关测量确定了小于1ps的系统时间分辨率.测得了四种染料的吸收恢复时间为5～9ps范围内的不同值.但光化稳定性明显地比Kodak染料好.     

氧化石墨烯基功能纸的简易制备和染料吸附性能

染料污染是水体污染的一个重要方面,吸附法因具有效率高,简单易操作等优点,被认为优于其他的染料废水处理技术.本文采用一种简单的方法制备了具有高吸附、易分离特性的氧化石墨烯基功能纸,研究其对水中阳离子染料的吸附,考察了吸附时间、染料初始浓度、吸附剂用量及温度对吸附性能的影响.利用扫描电子显微镜、拉曼光谱分析、热重分析、紫外可见吸收光谱仪等测试方法,对氧化石墨烯基功能纸的结构、形貌和吸附性能进行表征分析.结果表明:氧化石墨烯基功能纸对阳离子染料亚甲基蓝和罗丹明B有良好的吸附效果,当亚甲基蓝和罗丹明B的初始浓度分别为40和30 mg·L_(-1),功能纸对两种染料的吸附量分别达到了54.84和21.74 mg·g_(-1).而且这种氧化石墨烯基吸附材料很好地解决了吸附剂与水体的分离问题.另外,实验还发现,在氧化石墨烯基功能纸吸附染料的过程中,氧化石墨烯对染料的吸附作用远远大于纸巾本身对染料的吸附.例如,对于罗丹明B,纸巾的吸附量几乎为零,当罗丹明B的初始浓度为30 mg·L_(-1)时,以纸巾上负载的氧化石墨烯质量计算的吸附量达到了183 mg·g_(-1).动力学研究结果表明吸附过程较好地符合伪二级动力学模型,热力学数据分析,氧化石墨烯基功能纸对两种染料的吸附行为是自发吸热的.研究结果对基于氧化石墨烯的吸附材料的制备和应用提供了参考依据.     

蛋白质与酸性染料相互作用的分光光度研究

分别在酸性和碱性介质研究了铬天青S(CAS),溴甲酚绿(BCG),溴邻苯三酚红(BPR)和甲基百里酚蓝(MTB)与蛋白质结合的光度性质.在pH3.8～4.0,蛋白质使CAS和BCG的吸光度降低,在pH3.8和10.8,蛋白质分别使BPR和MTB最大吸收波长红移10和20nm,并使染料吸光度增大.无论染料吸光度降低或增大,均与蛋白质浓度在一定浓度范围内成正比.初步讨论了蛋白质与染料作用的机理.     

不对称菁染料敏化纳米TiO2的光生电流过程

用光电化学方法研究了不对称菁类染料敏化TiO2 纳米结构电极的光电转换过程 .结果表明 ,该染料的电子激发态能级位置与TiO2 纳米粒子导带边位置匹配较好 ,光激发染料后 ,其激发态电子可以注入到TiO2 纳米多孔膜的导带 ,从而使TiO2 纳米结构电极的吸收光谱和光电流谱红移至可见光区 ,其IPCE(Incidentphoton to electronconversionefficiency)值最高可达 84.3 % .并进一步结合现场紫外 可见吸收光谱研究了外加电势对激发态染料往TiO2 纳米多孔膜注入电子过程的影响     

染料分子吸附在正、负电性纳米银上的荧光增强及荧光猝灭现象

制备了两种不同表面电性的胶态纳米银 ,选取阴离子型染料分子荧光素钠、既有阴离子基团又有阳离子的染料分子罗丹明B ,研究其在两种纳米银表面的荧光增强及荧光猝灭现象 .当罗丹明B(RhB)分子分别吸附在这两种纳米银上时 ,对负电性纳米银 ,观察到荧光猝灭、荧光峰红移现象 ,且在分子的浓度适当时 ,加入KBr可获得较强的表面增强拉曼光谱 ;在正电性纳米银上 ,当分子的浓度较大时观察到荧光猝灭 ,当分子的浓度较小时观察到荧光增强 .而当荧光素钠分子 (FS)分别吸附在这两种纳米银上时 ,在负电性纳米银 ,观察到荧光猝灭 ;在正电性纳米银上观察荧光急剧增强现象 .从分子的结构及纳米银表面局域场增强或无辐射通道的增加对增强和猝灭的原因作了讨论 .     

Investigation on fluorescence quenching of dyes by graphite oxide and graphene

Rhodamine B (Rh B), eosin (E) and methylene blue (MB) were used as a probe to investigate the molecular structure and charge of the dyes on the sensitized efficiency of graphite oxide (GO) and graphene (G). The structure of the prepared GO and G were characterized by X-ray diffraction (XRD) and atomic force microscopy (AFM), respectively. To study the electron transfer between dyes and GO or G, UV-vis absorption spectra (UV-vis), steady state fluorescence spectra (FL) and time resolved fluorescence spectra have been determined. It has been found that the electron transfer from the excited dyes to G was more efficient than to GO, and the transfer from excited MB to G was easier than to Rh B and E, because of the different electrostatic attraction between the dye and G.     

The characteristic study and sonocatalytic performance of CdSe–graphene as catalyst in the degradation of azo dyes in aqueous solution under dark conditions

The sonocatalytic degradation of azo dyes; methyl orange (MO) and rhodamine B (RhB) were studied catalyzed by cadmium selenide (CdSe)-graphene in dark ambiance. The CdSe–graphene composites were prepared by simple hydrothermal method. The characterizations of composites were studied by X-ray diffraction (XRD), scanning electron microscope (SEM), transmission electron microscope (TEM), specific surface area (BET) and with energy dispersive X-ray (EDX). The UV-spectroscopic analysis of the dyes was done by measuring the change in absorbance. The degradation of the organic dyes was calculated based on the decrease in concentration of the dyes with respect to regular time intervals. The rate coefficients for the sonocatalytic process were successfully established and the reusability tests were done to test the stability of the used catalysts.     

Adsorptive removal of anionic dyes by modified nanoporous silica SBA-3

Batch sorption experiments were carried out to remove dyes, methyl orange (MO), orange G (OG) and brilliant red X-3B (X-3B), from their aqueous solutions using a mesoporous silica SBA-3 as an adsorbent. The effect of surfactant template in SBA-3 on the removal of OG, MO and X-3B was investigated. Experiments were carried out to investigate the influence of contact time, initial concentration, pH, and adsorbent dosage on the adsorption performance. The adsorption results of anionic dyes on the uncalcined SBA-3 (noted as SBA-3) were compared with those of the calcined SBA-3 (noted as C-SBA-3). The uncalcined SBA-3 adsorbent has a large adsorption capacity and a strong affinity for the anionic dyes. Langmuir, Freundlich and Temkin isotherms were employed to model the experimental results, from which the Freundlich isotherm exhibited the most appropriate to predict the same. Freundlich isotherm exhibited the most appropriate to predict the experimental results. The kinetic data were also analyzed through pseudo-first-order and pseudo-second-order models. The pseudo-second-order kinetic model well depicted the kinetics of dyes adsorption on mesoporous SBA-3.     

Degradation of reactive,acid and basic textile dyes in the presence of ultrasound and rare earths [Lanthanum and Praseodymium]

Degradation of five textile dyes, namely Reactive Red 141 (RR 141), Reactive Blue 21 (RB 21), Acid Red 114 (AR 114), Acid Blue 113 (AB 113) and Basic Violet 16 (BV 16) in aqueous solution has been carried out with ultrasound (US) and in combination with rare earth ions (La³⁺ and Pr³⁺). Kinetic analysis of the data showed a pseudo-first order degradation reaction for all the dyes. The rate constant (k), half life (t_1/2) and the process efficiency (φ) for various processes in degradation of dyes under different experimental conditions have been calculated. The influence of concentrations of dyes (16–40 mg/L), pH (5, 7 and 9) and rare earth ion concentration (4, 12 and 20 mg/L) on the degradation of dyes have also been studied. The degradation percentage increased with increasing rare earth amount and decreased with increasing concentration of dyes. Both horn and bath type sonicators were used at 20 kHz and 250 W for degradation. The sonochemical degradation rate of dyes in the presence of rare earths was related to the type of chromophoric groups in the dye molecule. Degradation sequence of dyes was further examined through LCMS and Raman spectroscopic techniques, which confirmed the sonochemical degradation of dyes to non-toxic end products.     

Fluorescence quantum yields of some rhodamine dyes

Fluorescence quantum yields of seven rhodamine dyes were measured relative to quinine sulfate dihydrate (QSH) in 1.0 N H₂SO₄. The values obtained were rhodamine 6G (0.95), B (0.65), 3B (0.45), 19 (0.95), 101 (0.96), 110 (0.92), 123 (0.90) at 25.0°C. Effects of temperature on the quantum yields of rhodamine B and QSH show a large temperature coefficient for rhodamine B and a significant one for QSH. Dye concentration was found to be critical in reporting observed fluorescence wavelength maxima.     

Comparative study on the process behavior and reaction kinetics in sonocatalytic degradation of organic dyes by powder and nanotubes TiO2

Sonocatalytic degradation of various organic dyes (Congo Red, Reactive Blue 4, Methyl Orange, Rhodamine B and Methylene Blue) catalyzed by powder and nanotubes TiO₂ was studied. Both catalysts were characterized using transmission electron microscope (TEM), surface analyzer, Raman spectroscope and thermal gravimetric analyzer (TGA). Sonocatalytic activity of powder and nanotubes TiO₂ was elucidated based on the degradation of various organic dyes. The former catalyst was favorable for treatment of anionic dyes, while the latter was more beneficial for cationic dyes. Sonocatalytic activity of TiO₂ nanotubes could be up to four times as compared to TiO₂ powder under an ultrasonic power of 100 W and a frequency of 42 kHz. This was associated with the higher surface area and the electrostatic attraction between dye molecules and TiO₂ nanotubes. Fourier transform-infrared spectrometer (FT-IR) was used to identify changes that occurred on the functional group in Rhodamine B molecules and TiO₂ nanotubes after the reaction. Sonocatalytic degradation of Rhodamine B by TiO₂ nanotubes apparently followed the Langmuir-Hinshelwood adsorption kinetic model with surface reaction rate of 1.75 mg/L min. TiO₂ nanotubes were proven for their high potential to be applied in sonocatalytic degradation of organic dyes.     

Sonochemical preparation of polyaniline@TiO2 and polyaniline@SiO2 for the removal of anionic and cationic dyes

Polyaniline (PANI) synthesized by simple CDs (carbon dots) initiated polymerization has formed a composite with TiO₂ and SiO₂, respectively via a sonochemical method. These PANI@TiO₂ and PANI@SiO₂ composites were proven as effective adsorbent materials to rapidly adsorb the anionic and cationic dyes from wastewater at neutral pH and ambient temperature. Selected popular cationic and anionic organic dyes consisted of methylene blue (MB), brilliant blue (BB), Evans blue (EB), crystal violet (CV), Congo red (CR), rhodamine B (RB), and rhodamine 6G (R6G). The adsorption equilibria were governed by Langmuir and Freundlich isotherms. The kinetic results revealed that the PANI@TiO₂ and PANI@SiO₂ composite materials synthesized via the sonochemical method are efficient adsorbents compared to other adsorbent materials for the removal of organic dyes from the water. The adsorbed dyes were effectively desorbed from the composites, rendering the reusability of PANI@TiO₂ and PANI@SiO₂. The estimated adsorption capacities of PANI@TiO₂ and PANI@SiO₂ composites were 89, 93, 80, 94 and 74, 71, 61, 61 mg/g for MB, CR, CV, and R6G, respectively.     

Spectral Properties of Single BODIPY Dyes in Polystyrene Microspheres and in Solutions

The absorption, fluorescence, fluorescence quantum yield, and photostability of five BODIPY dyes are characterized and compared as single dyes in two environments, in 40-nm polystyrene spheres and in solution. The absorption and fluorescence spectra of the dyes in spheres are similar in profile but shifted to lower energies compared to those in solution. All the dyes are highly fluorescent, with three having fluorescence quantum yields of 1.0. For three of the five dyes, the yields were the same in spheres as in solution (1.00, 1.00, and 0.73). The high concentration of these dyes in spheres does not quench their fluorescence. For two other dyes the yields dropped, from 1.00 to 0.55 in one case and 0.83 to 0.50 in another, comparing the dyes in solution versus in spheres. The photodegradation of the dyes decreases in spheres compared to in solution in all but one case. For one dye, it decreases as much as 800-fold. Dyes overlooked because of low fluorescence or stability in solution could become useful fluorescent materials in the microsphere environment.     

Cr,Ag共掺杂ZnS纳米材料的制备及其对活性染料的吸附性能

通过水热法制备了纤锌矿ZnS∶Cr,Ag共掺杂纳米材料,考察了不同反应时间以及不同Cr和Ag掺杂比例对ZnS纳米材料光学性能的影响。分别采用荧光分光光度计、红外光谱仪、X射线衍射仪(XRD)、扫描电子显微镜(SEM)等对Cr和Ag共掺杂ZnS纳米材料的光学性能和结构等进行了表征,探讨了ZnS∶Cr, Ag共掺杂纳米材料分别对甲基紫(MV)、丁基罗丹明B(BRB),四氯四溴荧光素(TCTBF)以及曙红B(EB)四种活性染料的吸附性能。结果表明,Cr3+和Ag+取代和嵌入到了Zn2+的位置,掺入到了ZnS的晶格中。由光学表征和扫描电镜(SEM)发现,掺杂后ZnS纳米材料的光学性能和形貌发生了改变。掺入Cr和Ag后,使得Zn纳米材料的荧光强度降低,且其形貌较规则,表面蓬松,呈绒球形状。当反应时间为12 h,Cr和Ag掺杂比例分别为1%时,掺杂ZnS纳米材料的形貌和光学性能最佳。运用N₂等温吸脱附分析技术计算了Cr和Ag共掺杂ZnS材料的比表面积和孔径分布,将其用于对MV,BRB,TCTBF以及EB四种活性染料的吸附研究,并分别从吸附时间、温度、pH值等因素考察了掺杂ZnS对几种活性染料吸附性能的影响,得出了Cr和Ag共掺杂ZnS材料在pH 7,室温下,分别经9,11,9和9 h吸附时间后对四种活性染料的吸附效果达到最佳。     

Rapid decolorization of azo dyes in aqueous solution by an ultrasound-assisted electrocatalytic oxidation process

In this study, we developed a novel ultrasound-assisted electrocatalytic oxidation (US–EO) process to decolorize azo dyes in aqueous solution. Rhodamine B was decolorized completely within several minutes in this developed US–EO system. Oxidation parameters such as applied potentials, power of the ultrasound, initial pH of the solution, and initial concentration of RhB were systematically studied and optimized. An obvious synergistic effect was found in decolorization of RhB by the US–EO process when comparing with either ultrasound (US) process or electrocatalytic oxidation (EO) one. Additionally, the decolorization of other azo dyes, such as methylene blue, reactive brilliant red X-3B, and methyl orange, were also effective in the US–EO system. The results indicated that US–EO system was effective for the decolorization of azo dyes, suggesting its great potential in dyeing wastewater treatment.