氟硼二吡咯（BODIPY）化合物是一类重要的荧光染料,由于其具有优良的光学性质,可用于肿瘤的光热治疗（PTT）和光动力治疗（PDT）。然而,在应用......

肝脏作为人体的主要代谢器官,具有非常复杂和重要的生理功能,容易受到药物的损害。在过去的几十年中,由于药物的滥用和误用,药物性......

随着有机光电材料和生物成像技术的发展,研发具有聚集诱导发光（AIE）性能的有机发光材料逐渐成为材料科学研究的热点.氟硼二吡咯染料（B......

光动力治疗（Photodynamic therapy,PDT）是一种利用光敏剂（photosensitizer,PS）激活产生活性氧（reactive oxygen species,ROS）来治疗癌症......

The fluorescence sensing of intracellular glutathione thiyl radical(GS·)is in great demand to seek the GS·-related pat......

Evaluating the correlation between hypoxia inducible factor 1 (HIF-1) and nitric oxide (NO) generated under hypoxia is o......

二吡咯烯低聚物由于其能够为金属离子和有机分子提供结合位点,而受到广泛关注。其中二吡咯的硼络合物（BODIPY）是研究最多的二吡咯络......

为了解决氟硼荧类染料(BODIPY)在肿瘤诊断中吸收波长短、水溶性和生物相容性差的问题,设计开发了2种吸收波长达到近红外区的BODIPY......

BODIPY类荧光染料具有很高的发光效率和良好的光稳定性,作为生物传感染料或光电功能染料,具有重大的应用价值.但是这类染料衍生物......

Organic conjugated molecules have drawn a lot of attention because of their increased applications inelectronic and opto......

Objective High-performance photosensitizers are highly desired for achieving selective tumor photoablation in the field ......

Senile Aβ plaques have been widely found in post-mortem brains of Alzheimers disease(AD)patients and are viewed as one ......

Objective: To study the distribute and nature of the lipid droplets within Hensens Cells(HCs)of guinea-pig Cotis organ; ......

众所周知,铜是生物体中基本的微量元素.但是铜不正常的摄取会导致生长和代谢的紊乱,甚至引起严重的疾病和死亡.比如铜会引起门克斯......

本论文针对 BODIPY 类化合物固态荧光淬灭的特点，设计合成不对称刚性结构的新型氟硼化合物，利用结构的不对称性，以增强基态和激发态电......

我们设计合成了一系列含酚羟基的BODIPY荧光染料，详细研究了他们对氟离子的识别作用，发现苯酚基团上给电子取代基团的种类和位置以及......

相比传统的荧光染料，荧光纳米粒具有独特的化学和光学性质，如：更高的稳定性，良好的生物相容性等，所有的这些特性都为其在生物医用领域提......

Truxene(10,15-dihydro-5H-diindeno[1,2-a;1′,2′-c]-fluorene),a C3h symmetric polycyclic hydrocarbon,has attracted a grea......

硼氟吡咯(BODIPY)有机硼氟配合物是一类具有良好光学性质的荧光染料,该类荧光染料通常具有较高的摩尔消光系数和高的荧光量子产率......

阿尔兹海默病(Alzheimers disease,AD)的两个病理学特征是神经元外Aβ(β-amyloid)斑块沉积和高度磷酸化的Tau蛋白沉积.Tau蛋白的......

光动力治疗是通过合适波长集中辐射肿瘤部位,无毒的光敏剂产生细胞毒性物质如活性氧,达到对周围正常细胞几乎无害的优异的微创肿瘤......

BODIPY 是一种荧光材料，由于其结构稳定，荧光量子产率高，在化工、生物医药和材料化学等领域广泛的研究。[1]我们设计并制备了两种含有......

In recent years,boron dipyrromethenes(BODIPYs),have emerged as one of the most important types of chromophore and are pr......

A boron-dipyrromethene(BODIPY)dye is rational designed by adding a styryl substituent with hydroxyl and nitro group,whic......

Boron dipyrromethene(BODIPY)dyes have attracted considerable research attention due to their unique optical property and......

有机多孔材料 POPs(Porous Organic Polymers)成为近年来的研究热点之一.它们具有优异的孔性质、较大的比表面积、稳定性好、重量......

荧光分析技术由于其检测限低和选择性好等优点，在化学、生物和材料等领域的研究中具有不可替代的作用[1]。在诸多荧光染料中，氟硼二......

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The gasotransmitter hydrogen sulfide(H2S)has attracted attention in recent years for its contributions to human health a......

Boron Dipyrromethane(Bodipy)is one of the most investigated fluorophores,which has been widely used in fluorescent sensi......

Boron dipyrromethene(BODIPY) dyes1 are now being widelyapplied in diverse research fields.2The growing success of thesec......

BODIPY(4,4-difluoro-4-bora-3a,4a-diaza-s-indacene)dyes1 have been increasingly used for various different applications,i......

Biothiols such as cysteine(Cys),homocysteine(Hcy)and glutathione(GSH)play vital roles in a wide range of physiological a......

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以硼氟吡咯(BODIPY)为代表的硼氟配合物是一类具有良好光学性质的荧光染料。该类荧光染料由于具有高的摩尔消光系数和量子产率、吸......

具有长波长吸收和发射的BODIPY在生物应用中有重要的意义,尤其是3,5位芳香烯烃取代BODIPY的合成,是最常用的制备具有更长吸收和发......

Borondipyrromethenes (BODIPY) as useful fluorophores have attracted much attention over the past two decades because of ......

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Recently,cyclic BODIPY oligomer have received much attention in light of their great importance that display artificial ......

众所周知,次氯酸在免疫系统中扮演着非常重要的角色,近年来的研究表明作为生物体中主要的ROS物质,次氯酸与多种人体疾病有着密切的......

能源危机与环境问题是21 世纪人类所面临和亟待解决的两大难题.利用光催化分解水产氢，将太阳能转化为化学能一直都备受科研工作者的......

BODIPY dyes constitute a class of important organic material in the leading-edge areas.[1] However,studies on their supr......

Photodynamic therapy(PDT)is a promising and clinically approved technique for treating various cancers.Photosensitizer(P......

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卟啉类化合物由于其在核磁共振成像技术(MRI),染料敏化太阳能电池(DSSC),有机半导体,光动力疗法(PDT),非线性光学材料,离子识别,芳......

　　A convenient procedure for the preparation of functionalized BODIPYs bearing both F and an organo substituent at the......