新型吲哚七甲川菁染料HI-6的合成及光声成像评价

以2,3,3-三甲基-3H吲哚与四氢呋喃甲基溴为原料,制得季铵盐（B）; B与2-氯-3-羟次甲基环己烯醛反应合成了以呋喃环为侧链的新型吲哚七甲川菁染料（HI-6）,其结构经¹H NMR, ¹³C NMR和HR-MS(ESI)表征。以吲哚箐绿（ICG）为对照,进行了荷瘤小鼠体内/体外的光声成像评价。结果表明：HI-6的最大吸收波长为776 nm,发射波长为819 nm。 HI-6在体外和体内的光声强度均远高于ICG,且在肿瘤部位有一定聚集性。     

新型吲哚衍生物的合成及其光学性质

以吲哚为原料,经Vilsmeier-Haack, Ullmannhe和Witting-Hornor反应合成了两个新型的含吲哚环共轭化合物--1,4-二(3-苯乙烯基吲哚基)苯（4a）和1,4-二(3-萘乙烯基吲哚基)苯（4b）,其结构经¹H NMR, ¹³C NMR, IR和ESI-MS表征。光学性能研究结果表明,4a和4b的λ_max分别位于330 nm和348 nm;在330 nm波长激发下,λ_em分别位于410 nm和425 nm。     

新型3-吲哚-四取代氧化吲哚的无催化剂合成

以3-氯氧化吲哚为原料,在无催化剂条件下发生S_N1反应,合成了18个新型的3-吲哚-四取代氧化吲哚,产率34%~77%,其结构经¹H NMR, ¹³C NMR和HR-MS（ESI-TOF）表征。     

新型5-取代吲哚-3-甲酰胺化合物的合成

以5-取代吲哚为原料,经维尔斯迈尔-哈克反应制得5-取代吲哚-3-甲醛(2a~2e); 2a~2e在DMF催化下,与盐酸羟胺反应制得5-取代吲哚-3-甲腈（3a~3e）; 3a~3e在H₂O₂和NaOH溶液中水解合成了5-取代吲哚-3-甲酰胺（4a~4e, 4b~4e为新化合物）,产率62.0%~75.0%,其结构经¹H NMR, ¹³C NMR和ESI-MS表征。     

3位间接连接有叔胺(仲胺)氮原子的3-季碳氧化吲哚化合物的合成

以3-卤氧化吲哚为起始原料,1,8-二氮杂二环十一碳-7-烯为催化剂,在二氯甲烷中与1-甲基吲哚经取代反应,或在甲苯溶液中于120 ℃条件下与吲哚（吲哚苯环上可连接有取代基）直接发生取代反应,合成了7个3位间接连接有叔胺（仲胺）氮原子的3-季碳氧化吲哚化合物,收率分别为80%~89%和 53%~70%,其结构经¹H NMR, ¹³C NMR和HR-MS（ESI-TOF）表征。     

新型六氢吡啶-2,3-并吲哚化合物的合成及其抗肿瘤活性

以3-取代氧化吲哚与丙烯酸酯为原料,经Michael加成反应制得中间体--3-丙酸酯取代氧化吲哚（3a~3d）; 3a~3d与甲胺发生酰胺化反应制得3 丙酰胺取代氧化吲哚（4a~4d）; 4a~4d用氢化铝锂还原-环化,合成了4个六氢吡啶-2,3-并吲哚化合物(5a~5d）; 5a和5b用氢化铝锂还原合成了2个六氢吡啶-2,3-并吲哚化合物（6a和6b）, 5a～5d, 6a和6b均为新化合物,总产率42%～61%,其结构经¹H NMR, ¹³C NMR和HR-ESI-MS表征。采用MTT法研究了5a～5d, 6a和6b对人肺癌细胞（A549）,人前列腺（PC-3）和人白血病细胞（K562）的体外抗肿瘤活性。结果表明：5b对A549, PC 3和K562的抑制活性均较好,其IC₅₀分别为27.2μmol·L^-1, 37.5 μmol·L^-1和21.7 μmol·L^-1。     

新型甘油拼接3-四取代氧化吲哚的无催化剂无溶剂合成

以3-氯氧化吲哚为原料，在无催化剂、无溶剂条件下于80 ℃发生亲核取代反应，合成了10个新型的甘油拼接3-四取代氧化吲哚，收率54%~72%， dr值10/9~>10/7, 其结构经¹H NMR, ¹³C NMR和HR-MS（ESI-TOF）表征。     

新型3-烷氧基-四取代氧化吲哚的无催化剂无溶剂合成

以3-氯氧化吲哚和甲醇（或甘油）为原料，在无催化剂无溶剂条件下经S_N1反应合成了10个新型的3-甲氧基-四取代氧化吲哚(产率36%~93%)和10个新型的3-甘油拼接四取代氧化吲哚（产率71%~87%）,其结构经¹H NMR, C N¹³MR和HR-MS（ESI-TOF）表征。     

区域选择性Michael/Aldol串联反应合成新型1′-茚醇拼接3-氧化吲哚类化合物

以3-烯烃氧化吲哚为起始原料,甲苯为溶剂,与丙二腈或腈基乙酸乙酯发生区域选择性Michael/Aldol串联反应,合成了6个新型的1′-茚醇拼接3-氧化吲哚类化合物,收率73%~90%, dr高达10/1,其结构经¹H NMR, ¹³C NMR和HR-MS（ESI-TOF）表征。     

新型异噁唑拼接3,3'-吡咯螺环双氧化吲哚类化合物的无催化剂合成

以3-异硫氰氧化吲哚与硝基异噁唑缩合的3-烯氧化吲哚,在二氯甲烷中无催化剂条件下于室温发生Michael加成环化反应,获得了8个未见文献报道的异噁唑拼接3,3′ 吡咯螺环双氧化吲哚类化合物（3a~3h）,产率91%~95%,dr值5/3~3/1,其结构经¹H NMR, ¹³C NMR和HR-MS（ESI-TOF）表征。     

A Water‐Soluble,NIR‐Absorbing Quaterrylenediimide Chromophore for Photoacoustic Imaging and Efficient Photothermal Cancer Therapy

Precision phototheranostics, including photoacoustic imaging and photothermal therapy, requires stable photothermal agents. Developing such agents with high stability and high photothermal conversion efficiency (PTCE) remains a considerable challenge. Herein, we introduce a new photothermal agent based on water‐soluble quaterrylenediimide (QDI) that can self‐assemble into nanoparticles (QDI‐NPs) in aqueous solution. Incorporating polyethylene glycol (PEG) into the QDI core significantly enhances both physiological stability and biocompatibility of QDI‐NPs. The highly photostable QDI‐NPs offer advantages including intense absorption in the near‐infrared (NIR) and high PTCE of up to 64.7±4 %. This is higher than that of commercial indocyanine green (ICG). Their small size (ca. 10 nm) enables sustained retention in deep tumor sites and also proper clearance from the body. QDI‐NPs allow high‐resolution photoacoustic imaging and efficient 808 nm laser‐triggered photothermal therapy of cancer in vivo.     

A Water‐Soluble,NIR‐Absorbing Quaterrylenediimide Chromophore for Photoacoustic Imaging and Efficient Photothermal Cancer Therapy

Precision phototheranostics, including photoacoustic imaging and photothermal therapy, requires stable photothermal agents. Developing such agents with high stability and high photothermal conversion efficiency (PTCE) remains a considerable challenge. Herein, we introduce a new photothermal agent based on water‐soluble quaterrylenediimide (QDI) that can self‐assemble into nanoparticles (QDI‐NPs) in aqueous solution. Incorporating polyethylene glycol (PEG) into the QDI core significantly enhances both physiological stability and biocompatibility of QDI‐NPs. The highly photostable QDI‐NPs offer advantages including intense absorption in the near‐infrared (NIR) and high PTCE of up to 64.7±4 %. This is higher than that of commercial indocyanine green (ICG). Their small size (ca. 10 nm) enables sustained retention in deep tumor sites and also proper clearance from the body. QDI‐NPs allow high‐resolution photoacoustic imaging and efficient 808 nm laser‐triggered photothermal therapy of cancer in vivo.     

Nanostructure-Driven Indocyanine Green Dimerization Generates Ultra-Stable Phototheranostics Nanoparticles

Indocyanine green (ICG) is the only near-infrared (NIR) dye approved for clinical use. Despite its versatility in photonic applications and potential for photothermal therapy, its photobleaching hinders its application. Here we discovered a nanostructure of dimeric ICG (Nano-dICG) generated by using ICG to stabilize nanoemulsions, after which ICG enabled complete dimerization on the nanoemulsion shell, followed by J-aggregation of ICG-dimer, resulting in a narrow, red-shifted (780 nm→894 nm) and intense (≈2-fold) absorbance. Compared to ICG, Nano-dICG demonstrated superior photothermal conversion (2-fold higher), significantly reduced photodegradation (−9.6 % vs. −46.3 %), and undiminished photothermal effect (7 vs. 2 cycles) under repeated irradiations, in addition to excellent colloidal and structural stabilities. Following intravenous injection, Nano-dICG enabled real-time tracking of its delivery to mouse tumors within 24 h by photoacoustic imaging at NIR wavelength (890 nm) distinct from the endogenous signal to guide effective photothermal therapy. The unprecedented finding of nanostructure-driven ICG dimerization leads to an ultra-stable phototheranostic platform.     

新型香豆素硼氟荧光染料的合成及其光学性能

以邻氨基苯甲酸甲酯和4-二乙胺基水杨醛为原料,合成了一个新的香豆素喹啉衍生物3-{2-［8-(1H-苯并咪唑-2-基)喹啉-2-基］乙烯基}-7-二乙胺基香豆素(QMC),再与BF₃·Et₂O配位合成了硼氟配合物(BQMC),其结构经¹H NMR和MS(ESI)表征。并对BQMC的光学性能进行了研究。结果表明：BQMC的最大吸收波长在二氧六环中为490 nm,在DMSO中为532 nm; BQMC的最大发射波长在正己烷中为618 nm,在DMSO中为679 nm,与配体QMC相比,最大吸收波长红移了近50 nm,最大发射波长红移了近100 nm, BQMC的Stokes位移值从115 nm增至183 nm。在固态下,BQMC在750~825 nm之间有较宽的荧光发射峰,具有较强荧光。     

Atomic absorption and fluorescence spectrometry with a carbon filament atom reservoir: Part XIII The determination of chromium with a fully enclosed atom reservoir

The detection and measurement of chromium by atomic absorption spectrometry with a carbon filament atom reservoir is described. At a wavelength of 357.9 nm, a sensitivity (1% absorption) of 9.2·10^-12 g was obtained. The detection limit was 1·1O^-11 g; in terms of concentration this is similar to that normally detectable in a flame. Results are presented for the effects of a number of interfering species.     

Fading Spectrophotometric Method for the Determination of Polyvinylpyrrolidone with Eosin Y

在弱酸性HC1-NaAc缓冲介质中,曙红Y（EY）在可见光区有强烈的光吸收,其最大吸收波长(lmax)位于517 nm处,而聚乙烯吡咯烷酮(PVP)在250-700 nm之间无光吸收,当EY与PVP反应形成结合产物时,EY发生明显的褪色作用,最大褪色波长仍位于517 nm,并在545 nm处出现一个较小的吸收峰。其褪色程度（DA）与PVP浓度在0.40~3.20 µg mL-1范围成线性关系,此褪色反应的灵敏度高,摩尔吸光系数(ε)是6.4 × 106 L mol-1 cm-1,对PVP的检出限为0.12 µg mL-1。并研究了反应的影响因素,结果表明方法具有较好的选择性,据此发展了一种曙红Y褪色分光光度法测定PVP的新方法。方法简便快速,可用于啤酒中PVP的定量测定。     

N,N′-二-(2-吡啶基)苝四羧酸二酰亚胺的合成及性能研究

合成了N,N′ 二 (2 吡啶基)四羧酸二酰亚胺,并纯化、调晶.对产物进行了元素分析和IR光谱研究(环状二酰亚胺的CO以双峰1708.8cm-1、1664 5cm-1).α晶型产物溶液的紫外可见光谱(最大吸收波长为526.00nm)和荧光光谱(最大发射波长为538.0nm)存在很好的镜像对称关系.薄膜紫外可见光谱图在450—570nm范围内,α晶型比β晶型有较强的吸收峰.X粉末衍射也反映出α晶型在2θ为25.5°、26.3°上的衍射峰强度分别为1954、2603.α、β晶型分别作为电荷产生材料制得的功能分离型有机光导体,在光源波长λ=532nm曝光下,测得含α的感光体达到饱和电位的时间45s、半衰曝光量5.7μJ/cm2、残余电位22V等数据.测得含β的感光体达到饱和电位的时间49s、半衰曝光量9.9μJ/cm2、残余电位22V等性能数值.     

Autocatalytic polymerization of selenium/polypyrrole nanocomposites as functional theranostic agents for multi-spectral photoacoustic imaging and photothermal therapy of tumor

The synchronization of diagnosis and treatment is a new trend in cancer treatment. Photoacoustic imaging (PAI) and photothermal therapy (PTT) are recognized as one of the perfect combinations. The autocatalytic polymerization of selenium/polypyrrole (Se@PPy) nanocomposites with a wide-absorption band at near-infrared region (NIR, 800 nm) has been developed in this paper. The wide optical absorption characteristics enable Se@PPy nanocomposites to achieve multi-spectral PAI. Ex vivo experiments show desirable photoacoustic ability of the Se@PPy nanocomposites at wavelengths ranging from 700 nm to 900 nm, which is better than that of commercial indocyanine green (ICG). Se@PPy nanocomposites have high photothermal conversion efficiency up to 36.3% as well as excellent photo-thermal stability. In vitro cytotoxicity test demonstrates that the Se@PPy nanocomposites have good bio-safety. Furthermore, the feasibility of Se@PPy nanocomposites for enhancing multi-spectral PAI guided PTT was verified on 4T1 tumor-bearing nude mice. Our results indicate that Se@PPy nanocomposites could be used as an effective theranostic agent for near-infrared light-mediated PAI and PTT of tumor.     

倍增反应紫外吸光光度法测定食盐中微量碘

在硫酸介质中 ,IO-3 氧化I-产生 3倍摩尔量I-3 ,而I-3 在紫外光区的 2 88nm具有最大吸收 ,ε2 88=1.3×10 5L·mol-1·cm-1,具有很高的灵敏度 .碘的浓度在 0～ 6 0 μg/ 10 0mL范围内符合比耳定律 ,方法简便快速、选择性好、灵敏度高 ,用于测定加碘食盐中碘的含量 ,结果满意     

Design of Photostable,Activatable Near‐Infrared Photoacoustic Probes Using Tautomeric Benziphthalocyanine as a Platform

Near‐infrared (NIR) imaging techniques have attracted significant attention for biological and medicinal applications due to the ability of NIR to penetrate deeply into tissues. However, there are very few stable, activatable molecular probes that can utilize NIR light in the wavelength range beyond 800 nm. Herein, we report a new activatable NIR system for photoacoustic imaging based on tautomeric benziphthalocyanines (BPcs). We found that the existence of a free hydroxyl group is crucial for NIR absorption of BPcs. Synthesized water‐soluble hydroxy BPcs exhibited high photostability and no fluorescence, which are desirable features for photoacoustic imaging. We synthesized BPcs in which the free hydroxyl group was masked by an esterase‐labile or an H₂O₂‐labile group. The photoacoustic signals of these hydroxy‐masked BPcs were increased upon NIR excitation at 880 nm in the presence of esterase or H₂O₂, respectively. These are rare examples of activatable probes utilizing NIR light at around 900 nm.