三元若丹明激光染料荧光寿命研究

利用单光子计数技术测试了新型三元若丹明激光染料在不同溶剂中的荧光寿命、荧光光谱及其寿命的实验数据.实验表明,所研究的三元若丹明染料存在着有效的分子内能量传递过程,这些过程使得激光染料的荧光量子效率及光稳定性明显改善.     

时间分辨激光荧光光谱分析技术研究 Ⅰ.长寿命荧光寿命测量

本文主要以测定样品中稀土元素含量为目的,为建立时间分辨激光荧光光谱分析手段而组装了微秒级激光荧光寿命测里装置。经反复实验,所测结果与其它荧光寿命测量仪器的测量结果进行了比较,证明我们自装的荧光寿命测量装置是可靠的。用本装置,我们测量了部分稀土配合物的荧光寿命,为我们开展时间分辨激光荧光光谱分析提供了依据。     

新型双发色团染料荧光光谱及其寿命的研究

有效的染料激光操作需要较高的荧光量子效率,若丹明是在500~700 nm光谱区中一类最重要的激光染料.然而,染料的基态分子和三线态对辐射能量的吸收将会大大降低激光输出效率,再者,由于若丹明类染料在紫外区的吸收系数较小,为了有效吸收泵浦能量(如用XeCI准分子激光,308 nm),就必须使用高浓度染料溶液,在这种情况下,若丹明类染料较小的Stokes位移就势必造成基态分子更大的重复吸收,即造成更大的谐振腔损耗^[1].     

锌酞菁类染料荧光寿命的非瞬态实验估算

合成了一系列的锌酞菁染料。用循环伏安法测定了它们的氧化还原电位, 并测定了用典型的电子受体猝灭它们的荧光动力学数据。按电子转移模式确定了各染料-电子受体对的荧光猝灭速率常数κ_q对电子从染料向受体转移的自由能变化⊿G函数关系。根据测得的氧化还原电位和光谱数据计算出⊿G, 根据函数关系计算出κ_q, 代入到猝灭动力学数据κ_qτ。这样,就用非瞬态的实验估算出染料的荧光寿命r。与已知的实测文献值进行比较, r的大致范围是可信的。     

正丁胺对激光染料荧光谱影响的研究

用正丁胺作为碳源,采用射频辉光放电制备碳膜,选用激光染料R6G和聚乙二醇混合液作为蒸气源,采用单源热蒸发,在蒸发室与染料同时沉积得到混合膜,用拉曼光谱和红外光谱分析了碳膜的结构和键合方式,分析表明:碳膜中存在胺基团和氢原子.混合膜的荧光谱测量结果表明,认为正丁胺对染料荧光谱的影响是因为胺基和氢原子的存在.     

荧光标记染料

荧光标记染料在生命科学领域具有极大的应用前景，基因芯片的研究开发使荧光染料应用于药理研究、药物毒性、药物靶标研究、医学诊断等领域。本文对荧光素、若丹明、菁染料等核酸及蛋白质分析检测用荧光标记染料的结构、性能及其应用特点作了较为详细的介绍。     

多孔硅镶嵌正丁胺/激光染料复合膜的荧光谱

多孔介质染料镶嵌膜有可能是发展固体染料激光器的一种途径[1].由于其所具有的微孔结构和大的比表面积,故使其成为激光染料理想的载体,以形成多孔硅基发光材料[2].　　我们用正丁胺作碳源,采用射频辉光(ＲＦ)放电法制备碳膜.利用正丁胺、Ｒ6Ｇ/聚乙二醇分别作碳源和蒸发源得到一种混合膜,如将其沉积在刚制备的新鲜多孔硅上则得到多孔硅镶嵌复合膜.本文着重研究了镶嵌于多孔硅中的正丁胺/Ｒ6Ｇ的荧光光谱,并考察了多孔硅衬底的改变对多孔硅镶嵌膜发光的影响.1　样品制备　　(1)多孔硅的制备　制备多孔硅(ＰＳ)所用的材料为(100)晶向的ｐ型单…     

多孔硅镶嵌正丁胺/激光染料复合膜的荧光谱

The photoluminescence (PL) of the compound films made by implanting n-butylamine/ Rhodamine into the porous silicon films was studied. Comparison and discussion of the difference of PL of the compound films and the dyes were carried out. The PL of the compound films with different substrates was measured.     

近红外激光防护染料

以激光防护和隐身材料为需求背景，概述了菁类染料(含多次甲基菁染料、方酸菁和克酮酸菁染料、薁染料)、酞菁类染料(含普通酞菁和萘酞菁)、金属络合物染料、醌型染料、偶氮染料、游离基型染料、芳甲烷型染料、苝类染料等近红外吸? 杖玖系难芯孔纯黾敖埂? $601$ADuetotherequirementofnear-infraredlaserprotectivedyesandlaserstealthmaterials,thisreviewfocusedontheresearchprogressofnear-infraredabsorbingdyes,andsomesuggestionswereputforwardonthefutureresearch.Someofthemostimportanttechnicalrequiremnetsforlaser-protectivedyeswithintheplasticareasfollows:sharpabsorptionbandsatspecificwavelengthscorrespondingtolaseremission,excellentlightfastness,robustthermalandchemicalstability,stabilitytoambientconditions,highopticaldensityandscotopicluminoustransmission,goodsolubilityinplasticandlowtoxicity.Thisreviewpaidattentiontothepropertiessuchasthemaximumabsorptionwavelengthandtheabsorptionintense,attentionhadbeendirectedtowardseighttypesnear-infrareddyes:cyaninedyeswhichincludedpolymethinedyesandsquaryliumorcroconiumdyes,phthalocyaninesandnaphthalocyanines,metalcomplexdyes,quinonedyes,azodyes,radicaldyes,multiphenylmethanedyesandperylenedyes.Otherkindsofnear-infrareddyeswerealsomentioned,suchasaromaticannulenes,planescontainignso-callednonbenzenoidaromaticrings,cycliccross-conjugatedhydrocarbonshavinginsertedp-quiniodring,fluorenyliumdyeswithinorganicanions,donor-acceptorcyclophanes,tetrapyrazinoporphyrazinesandpentaazadentateexpandedporphyrinsetal.Allofthedyesmentionedabovehadsomegoodpropertiesforuseasthenear-infraredlaserprotectivedyesandlaserstealthmaterials,buttherealsoexisteddefectsineverykindofdyes.     

高亮度近红外荧光染料研究进展

近红外光(650～1700nm)在生物成像中具有组织穿透深度大、受生物体自身荧光干扰小和对生物体光损伤小等优点.因此,近红外染料已成为生物成像新的研究热点.近红外荧光染料较窄的能量带隙使激发态非辐射跃迁几率增大,导致荧光强度大幅降低.同时较长的共轭疏水骨架及强大的分子电荷转移能力,使他们容易与外部分子交互,从而加剧非辐射能量损耗增加,致使荧光强度降低.为了获取高亮度近红外荧光染料,研究人员针对近红外染料做了很多改进和修饰.从荧光染料的结构-性质关系角度,综述了目前主流的高亮度近红外染料的发展情况,希望能为发展高亮度近红外荧光染料提供帮助和指导.     

TRIPLET LIFETIMES OF SOME FLAVINS

Abstract— Using flash photolysis the rate constants of the triplet decay at pH 7.0 (26°C) of 10-hydroxyethyl-isoalloxazine (2700 s⁻¹), 2'-deoxyRF (2300 s⁻¹), 5'-deoxyRF (3200 s⁻¹), 8-hydroxyRF (18 000 s⁻¹) and 8-aminoRF (28 000 s⁻¹) have been measured. The results agree with other evidence that photochemical properties of flavins are influenced by the interaction of the sidechain with the isoalloxazine nucleus. In addition, our data on RF and FMN indicate that the triplet decay rates given in the literature for these compounds have to be corrected to 3200 s⁻¹ (RF) and 4900 s⁻¹ (FMN), respectively. The rate constants for the quenching of the triplet by ground state molecules for all above compounds are given.     

THE USE OF SHORT LIVED FLUORESCENT DYES TO CORRECT FOR ARTIFACTS IN THE MEASUREMENTS OF FLUORESCENCE LIFETIMES

Abstract— The ultrafast emission for fluorophores can be used as the effective excitation pulse for prompt response measurements by photo detectors in the same spectral region as that of unknown samples. This method corrects for such artifacts as wavelength and spatial dependence of the response function of the photodetector. It is shown that the emission from triphenylmethane dyes is an excellent effective pulse with relaxation time 2 ps in the red region of the spectrum. A microchannel plate photomultiplier has only a 35 ps increase in response or lag time between excitation at 420 nm and emission at 680 nm.     

银漂色位移染料性能的研究

本文对几种银漂染料的色位移和复色性能与其分子结构的关系进行了研究。结果显示,以N-苯甲酰化J-酸、G-酸、变色酸为偶合组分的染料具有较好的位移和复色性能,而以R-酸、N-酰化H-酸等为偶合组分的银漂染料性能较差。位移染料M-16、C-20的初步涂布应用表明,其样片感光度分别提高了3.8和6.3倍。     

ELECTRON PARAMAGNETIC RESONANCE OF SOME TRIPHENYLMETHANE DYES IN THE TRIPLET STATE

Abstract— Electron paramagnetic resonance spectra of the triplet states of several triphenylmethane dyes in glassy solutions at 90 K have been measured and their zero-field splitting parameters estimated. Crystal violet and para rosaniline do not possess trigonal symmetry in their triplet states, and the unusually broad absorptions in the Δ M ₈= 1 region of the spectra have been attributed to the presence of different rotational isomers of the dye cations. A number of malachite green derivatives were investigated, but absorption of the triplet states of these dyes was only observed in the low field Δ M ₈= 2 region of the spectrum.     

USE OF A PULSED LASER DIODE TO MEASURE PICOSECOND FLUORESCENCE LIFETIMES

Abstract— The use of an inexpensive pulsed laser diode (Hamamatsu picosecond light pulser PLP-01) as the excitation source for a single photon timing spectrolluorimeter with microchannel plate photomultiplier detection was dem-onstrated. The performance of the instrument was tested with two very short-lived fluorescent dyes and two pho-tosynthetic systems with wcll-defined decay characteristics. Individual fluorescence decays were analyzed by modeling with a convolution of the instrument response function to a sum of exponential decay components. Accurate fluorcscence lifetimcs of the dyes cryptocyanine (55 ps in acetone and 83 ps in ethanol) and 1,1'-diethyl-2,2'-dicarbocyanine iodide (13 ps in acetone and 26 ps in ethanol) were obtained by analysis of the decay kinetics with a single exponential component. Fits to the fluorescence decay kinetics of isolated photosystem I particles and intact cyanobacterial cells required three and four decay components. respectively. The decay kinetics of the isolated photosystem I preparation were dominated (99%) by a very fast 9 ps lifetime, reflecting the preparation's small antenna size of approximately 30 chlorophyll a . The cyanobackria showed decay components of 35 ps, 160 ps, 400 ps and 1.95 ns similar to those described previously by Mullincaux and Holzwarth ( Rinchim. Biophys. Acfa 1098 , 68–78, 1991). The performance of the pulsed laser diode as an excitation source for single photon timing is discussed in comparison with conventional sources of picosecond light pulses.     

新型可聚合激光染料及双发色团共聚物的合成

通常染料激光的工作介质是染料溶液,因而限制了在一些技术领域的应用.因此近年来人们将研究兴趣转移到固体激光染料[1～3].激光染料的固体基质相对于其液体溶液存在着显著的技术优势:紧密性、可加工性、无毒、不易燃、无蒸发、易于器件集成化等等.聚合物或硅胶均可用作激光染料的固体基质,用作基质的聚合物与激光染料有很好的相容性,光均一性,且其制作成本低廉.近期报道将激光染料与甲基丙烯酸甲酯进行共聚得到了性能优良的固体激光材料[4],由于激光染料与聚合物链直接相连,减少了耗能,避免了染料过快的降解,大大提高了其光稳定性和激光输出…     

某些硫碳菁染料在溴碘化银乳剂中聚集态的研究

本文应用三种不同晶形的溴碘化银乳剂(立方体、八面体和T-颗粒)和八种硫碳菁染料(大部分为内铵盐结构染料)进行了染料的聚集态的研究。试验结果表明,染料的J-聚集态的形成主要取决于染料的结构,其次依赖于卤化银的晶形。三种不同结构的表面活性剂对染料聚集态的形成均有影响,其中两性的表面活性剂最强,阴离子的表面活性剂次之,中性的表面活性剂最弱。二种中位甲基取代的硫碳菁染料的聚集态受表面活性剂影响最为明显,形成较强的J-态,而对其它六种染料的聚集态影响较小,J-聚集态稍有增强。     

STUDY ON MECHANISM OF SUPERSENSITIZATION OF SOME ALLOPOLAR TRINUCLEAR CYANINE DYES

ESR studies have been made on the supersensitization of naphthothiacarbocyanine NTCC by some holopolar trinuclear cyanine dyes TNC.