光/热成像用活性醚化物阻溶/促溶剂的分子设计

本文提供了低分子量酚类化合物与乙烯基烷基醚合成醚化率百分之百的高酸解活性醚化物(以下简称活性醚化物)的一般合成方法,并对其合成条件的优选进行了讨论.建立了原料酚类化合物与成像性能密切相关的参数,如羟当量,临界碱水不可溶羟当量,临界碱水可溶羟当量,表征原料酚类化合物阻溶、促溶能力比的M_P/A值,按照成像要求所设定的碱水易溶、碱水可溶、碱水微溶、碱水不溶(难溶)的AS_TW参数.测定或推算出活性醚化物的平均醚当量、与分子量相关的校正醚当量、活性醚化物的M_E/A_E值以及M_E/A_E值与M_P/A值的比值(即DL值)等多项参数.围绕上述参数的建立,提出了一些经验计算公式,根据所建立的参数值以及多年来从事光/热成像实验的实践,提出了光/热成像用活性醚化物分子设计的有关规则.     

连苯三酚缩二乙烯基苯树脂活性醚化物的合成与成像应用

通过乙烯基乙醚和连苯三酚缩二乙烯基苯树脂( PDVB resin)的羟基加成,合成了具有缩醛结构的活性醚化物,并对该活性醚化物的合成条件进行优化.这种具有缩醛结构的活性醚化物具有常温酸解和热解性能,作为阻溶促溶剂可用于常温化学增幅阳图感光成像和阳图热敏成像中.用于阳图热敏CTP感热成像配方中,使得版材具有高感度、高抗碱性、高稳定性;用于阳图CTcP感光成像配方中,使得该版材的综合成像性能优良;用于正性光致抗蚀剂成像配方中,使得该正性光致抗蚀剂具有高感度和高分辨率.     

两种新型水溶性庚铂衍生物的合成和抗癌活性研究

设计、合成出两种新型的水溶性庚铂衍生物cis-(4R,5R)-4,5-双(氨甲基)-2-乙基-1,3-二氧环戊烷·3-羟基-1,1-环丁烷二羧酸根合铂(Ⅱ)和cis-(4R,5R)-4,5-双(氨甲基)-2-甲基-1,3-二氧环戊烷·3-羟基-1,1-环丁烷二羧酸根合铂(Ⅱ),并采用元素分析、质谱、红外光谱和核磁共振谱表征了它们的化学结构。体内外抗癌试验表明,虽然它们的细胞毒性不如庚铂,但体内抗癌作用优于庚铂,且水溶性明显高于庚铂,值得进一步研究。     

两种新型水溶性庚铂衍生物的合成和抗癌活性研究

设计、合成出两种新型的水溶性庚铂衍生物cis-(4R,5R)-4,5-双(氨甲基)-2-乙基-1,3-二氧环戊烷·3-羟基-1,1-环丁烷二羧酸根合铂(Ⅱ)和cis-(4R,5R)-4,5-双(氨甲基)-2-甲基-1,3-二氧环戊烷·3-羟基-1,1-环丁烷二羧酸根合铂(Ⅱ),并采用元素分析、质谱、红外光谱和核磁共振谱表征了它们的化学结构。体内外抗癌试验表明,虽然它们的细胞毒性不如庚铂,但体内抗癌作用优于庚铂,且水溶性明显高于庚铂,值得进一步研究。     

新型噻吩并四氢吡啶芳酸醚类化合物的合成及其抗血小板聚集活性

运用生物电子等排及拼合设计原理,设计并合成了14个新型的噻吩并四氢吡啶芳酸醚类化合物(4a~4j和8a~8d),其结构经1H NMR,13C NMR和ESI-MS表征。采用Bron比浊法测定了4a~8d对腺苷二磷酸(ADP)和花生四烯酸(AA)诱导的血小板聚集抑制活性。结果表明:4-【3-{6,7-二氢噻吩并[3,2-c]吡啶-5(4H)-基}丙氧基】-苯甲酸对AA诱导的血小板聚集和4-【3-{6,7-二氢噻吩并[3,2-c]吡啶-5(4H)-基}丙氧基】-3,5-二甲氧基苯甲酸对ADP诱导的血小板聚集均显示出较强的抑制活性,其IC50分别为0.020 mmol·L-1和0.018 mmol·L-1。     

“部分酸、碱和盐的溶解性表”的教学资源开发

探讨并发掘“部分酸、碱和盐的溶解性表(20℃)”除“溶解性”信息功能外的其他多样化功能信息资源进行教学。该图表具备：标识元素符号、蕴含化学式书写、熟悉常见原子团、承载物质分类识别、明示离子符号、明析离子方程式、强化电离方程式书写、盐的水解阐释以及离子共存解释等功能。     

电活性聚芳醚酮类环状分子的合成和性质

将电活性苯胺四聚体链段引入聚芳醚酮类刚性大环分子中, 得到了含电活性苯胺链段的聚芳醚酮类大环状分子低聚物C-1, 并通过循环伏安和紫外滴定法证明了这种新型环状分子具有电活性.     

水溶性铜卟啉配合物的合成、与DNA的相互作用及抗肿瘤活性

合成了3种水溶性铜卟啉配合物,分别为水溶性含溴铜卟啉(CuP-1)及其溴取代衍生物(CuP-2、CuP-3),并采用核磁氢谱、元素分析、质谱等手段进行了结构表征。利用紫外光谱法、EB-DNA荧光淬灭法、粘度法以及圆二色谱法等光谱法研究了CuP-1、CuP-2和CuP-3与小牛胸腺DNA(CT-DNA)的相互作用。采用噻唑兰(MTT)法,以体外培养的宫颈癌细胞(Hela)和乳腺癌细胞(MDA)为测试细胞株对CuP-1~CuP-3的抗肿瘤活性进行检测。人成纤维细胞(L929)作为正常细胞系。光谱法实验结果表明,CuP-1以插入的方式与CT-DNA相互作用,而CuP-2和CuP-3与CT-DNA以沟面结合的方式相互作用,且CuP-1与CT-DNA的结合能力优于CuP-2和CuP-3。体外抗癌活性实验结果表明,CuP-1~CuP-3对Hela和MDA均有体外抑制细胞增殖作用,呈时间、剂量依赖关系,并且CuP-1的体外抗肿瘤活性明显优于CuP-2、CuP-3。     

水溶性卟啉及其系列金属化合物的合成、抗癌活性及其作用机制研究

合成了水溶性四-[(4-三甲铵基)苯基]卟啉TAPP及其金属卟啉化合物MTAPP,其中M=Zn(),Cu(),Fe(),Co(),Ni(),Mn().通过元素分析、紫外-可见光谱确定了化合物的组成和结构.以紫外-可见光谱、荧光光谱及粘度法等手段研究了卟啉化合物TAPP和金属卟啉化合物ZnTAPP与小牛胸腺DNA的相互作用,结果表明,TAPP,ZnTAPP与DNA相互作用使紫外-可见光谱发生了8～12nm的红移,并出现了明显的减色效应.荧光光谱强度明显增大,吸收峰位发生变化.以艾氏腹水癌(Ac)和肝癌(Hept)细胞为靶细胞,采用MTT染色法评价了化合物的抗癌活性,部分化合物表现出较高的抗癌活性     

新型含硫(氧)肟醚衍生物的合成、杀虫活性及其结构活性关系研究

通过1-芳基含硫(氧)酮肟与相应的拟除虫菊醇卤化物在氢氧化钠和相转移催化剂条件下反应或1-芳基含硫(氧)酮肟与相应的拟除虫菊醇卤化物的三乙基季胺盐在氢氧化钠条件下反应, 合成了1-芳基含硫(氧)酮O-苄基肟醚C1～C96共96个化合物. 它们的结构经质谱, 1H NMR, IR和元素分析确证. 生物活性测定结果表明, 该类化合物对鳞翅目和同翅目害虫表现出显著活性, C74和C93对粘虫、叶蝉的活性[LC50/(mg•L－1)]分别为1.4, 0.63和0.31, 1.2. 优于对照药氰戊菊酯.     

三嗪类化合物溶解度参数及毒性构－效关系

测定了１２种三嗪类化合物的水溶解度，辛醇水分配系数和对发光菌的毒性，并用分子连结性指数建立了预测三嗪类化合物的溶解度，辛醇水分配系数及对发光菌毒性的定量结构活性相关方程，其中１０种化合物文献中未见报道。     

三嗪类化合物溶解度参数及毒性构—效关系

测定了１２种三嗪类化合物的水溶解度，辛醇水分配系数和对发光菌的毒性，并用分子连结性指数建立了预测三嗪类化合物的溶解度，辛醇水分配系数及对发光菌毒性的定量结构活性相关方程，其中１０种化合物献中未见报道。e     

Conductance Study and Thermodynamics of Some Substituted Ammonium Salts with Crown Ethers in Aqueous Solution

A conductance study of the interaction between substituted ammonium ions with three crown ethers in aqueous solution has been carried out at different temperatures. The formation constants of the 1 : 1 complexes at various temperatures were determined from the molar conductance-mole ratio data and found to vary in the order 18C6 > 15C5 > 12C4 for the same salt and with the same crown, the formation constants vary in the order (C2H5)3NHCl > (C2H5)4NBr > (CH3)3NPhI.The enthalpy and entropy of complexation were determined from the temperature dependence of the formation constants. The results indicate that the complexation process is enthalpy unfavored and entropy favored. The influence on the thermodynamic data for different parameters such as cavity size of crown ethers and nature of salt are discussed.     

Temperature Dependence of Solubility for Ibuprofen in Some Organic and Aqueous Solvents

The thermodynamic functions—Gibbs energy, enthalpy, and entropy of solution—were evaluated from the solubilities of ibuprofen determined at several temperatures in the pure solvents: octanol, isopropyl myristate, chloroform, cyclohexane, and water. The organic solvent-saturated aqueous media and water-saturated organic solvents were also studied, except for cyclohexane. In aqueous media, the solubility was determined at pH = 7.4 and an ionic strength 0.15 mol-L^–1 (physiological values). The excess Gibbs energy and the activity coefficients of the solutes were also determined. The solubilities are higher in organic media such as chloroform and octanol than in aqueous media and cyclohexane.     

Tensiometry as a Simple Analytical Method for Quantification of Solubility and Release of Aroma Molecules in Aqueous Media

Dynamic tensiometry is shown to be a high-potential analytical tool in assessing physico-chemical characteristics of fragrance molecules, such as solubility limit, volatility as well as much rarely assessed interfacial activity of these amphiphilic molecules. Surface tension of aqueous solutions of selected essential oils has been measured as a function of time and fragrance concentration using maximum bubble pressure method. The effect of the temperature and saline solution on the rate of dissolution in water was assessed. Dynamic surface tension turned to be sensitive to the composition of fragrances, as demonstrated on examples of natural and synthetic mixtures. Furthermore, presented work reveals the possibility of maximum bubble pressure tensiometry method to quantify the amount of fragrance compositions in flavored salts, including the artificially aged carrier samples. Suggested here analytical approach can be used for the detection of the purity of essential oils, for the optimization of compositions and of the manufacturing processes of fragrances-containing products, as well as for the assessment of the release/evaporation of fragrances from carrier systems.     

Insight into the Inclusion Complexation of Fluconazole with Sulfonatocalix[4]naphthalene in Aqueous Solution,Solid-State,and Its Antimycotic Activity

The study aims to assess the interaction between fluconazole and sulfonatocalix[4]naphthalene towards enhancing its dissolution performance and antimycotic activity. A solubility study was carried out at different pH conditions, and the results revealed the formation of a 1:1 molar ratio fluconazole-sulfonatocalix[4]naphthalene inclusion complex with an A_L type phase solubility diagrams. The solid powder systems of fluconazole-sulfonatocalix[4]naphthalene were prepared using kneaded and co-evaporation techniques and physical mixtures. DCS, PXRD, TGA-DTG, FT-IR, and in vitro dissolution performance characterize the prepared systems. According to physicochemical characterization, the co-evaporation approach produces an amorphous inclusion complex of the drug inside the cavity of sulfonatocalix[4]naphthalene. The co-evaporate product significantly increased the drug dissolution rate up to 93 ± 1.77% within 10 min, unlike other prepared solid powders. The antimycotic activity showed an increase substantially (p ≤ 0.05, t-test) antimycotic activity of fluconazole co-evaporate mixture with sulfonatocalix[4]naphthalene compared with fluconazole alone against clinical strains of Candida albicans and Candida glabrata. In conclusion, sulfonatocalix[4]naphthalene could be considered an efficient complexing agent for fluconazole to enhance its aqueous solubility, dissolution performance, and antimycotic activity.     

Thermodynamic Study of the Solubility of Benzocaine in some Organic and Aqueous Solvents

The thermodynamic functions free energy, enthalpy, and entropy of solution, were evaluated from solubility data of benzocaine determined at several temperatures in octanol, water, and the mutually saturated solvents, in isopropyl myristate, water, and the mutually saturated solvents, and in cyclohexane. In aqueous media the solubility was determined at pH 7.4 and ionic strength 0.15 mol-L^–1. The excess free energy and the activity coefficients of the solutes also were determined. The solubility was higher in organic media, such as octanol and isopropyl myristate, than in aqueous media and cyclohexane.     

Solubility and Thermodynamic Data of Febuxostat in Various Mono Solvents at Different Temperatures

This study examines the solubility and thermodynamics of febuxostat (FBX) in a variety of mono solvents, including “water, methanol (MeOH), ethanol (EtOH), isopropanol (IPA), 1-butanol (1-BuOH), 2-butanol (2-BuOH), ethylene glycol (EG), propylene glycol (PG), polyethylene glycol-400 (PEG-400), ethyl acetate (EA), Transcutol-HP (THP), and dimethyl sulfoxide (DMSO)” at 298.2–318.2 K and 101.1 kPa. The solubility of FBX was determined using a shake flask method and correlated with “van’t Hoff, Buchowski-Ksiazczak λh, and Apelblat models”. The overall error values for van’t Hoff, Buchowski-Ksiazczak λh, and Apelblat models was recorded to be 1.60, 2.86, and 1.14%, respectively. The maximum mole fraction solubility of FBX was 3.06 × 10⁻² in PEG-400 at 318.2 K, however the least one was 1.97 × 10⁻⁷ in water at 298.2 K. The FBX solubility increased with temperature and the order followed in different mono solvents was PEG-400 (3.06 × 10⁻²) > THP (1.70 × 10⁻²) > 2-BuOH (1.38 × 10⁻²) > 1-BuOH (1.37 × 10⁻²) > IPA (1.10 × 10⁻²) > EtOH (8.37 × 10⁻³) > EA (8.31 × 10⁻³) > DMSO (7.35 × 10⁻³) > MeOH (3.26 × 10⁻³) > PG (1.88 × 10⁻³) > EG (1.31 × 10⁻³) > water (1.14 × 10⁻⁶) at 318.2 K. Compared to the other combinations of FBX and mono solvents, FBX-PEG-400 had the strongest solute-solvent interactions. The apparent thermodynamic analysis revealed that FBX dissolution was “endothermic and entropy-driven” in all mono solvents investigated. Based on these findings, PEG-400 appears to be the optimal co-solvent for FBX solubility.