大分子光引发剂的研究进展

综述了大分子光引发剂的研究现状和进展。简要叙述了大分子光引发剂的制备方法、引发机理。对小分子光引发剂和大分子光引发剂进行了对比,着重讨论了分子结构因素对引发性能的影响。     

紫外光引发制备高吸水树脂研究进展

首先介绍了紫外光(UV)引发及其常用的自由基光引发剂、光引发的特点、以及与γ射线辐射引发、微波辐射引发和电子束引发等三种引发方式相比较的优缺点等内容。然后就四种主要的光引发高吸水树脂:光引发乙烯基单体溶液聚合制备的高吸水树脂、光引发乙烯基单体接枝聚合制备的高吸水树脂、光引发制备复合高吸水树脂及光引发制备互穿网络(ISPN)高吸水树脂的研究进展进行了详细的阐述。最后指出了紫外光引发制备高吸水树脂需要加强的几个方向,即加强基础理论研究、开发新型高效光引发剂、开发新型复合高吸水树脂以及设计新的聚合工艺等。     

新型光引发剂体系及其应用

紫外光固化技术具有环保、节能、可控等优点而广泛地应用于涂料、油墨、微电子和生物材料的领域,在紫外光固化技术光引发剂体系中起着十分关键的作用,新型高性能光引发剂的研制与开发广受科研工作者的重视,同时光引发剂因其独特的优点而不断的应用到一些新兴的科学领域中。本文介绍了作者课题组近5年来在新型高分子光引发剂方面的研究工作,这些工作主要围绕新型高分子硫杂蒽酮光引发剂、高分子二苯甲酮光引发剂和两亲性高分子光引发剂等三个方面展开,同时还介绍了这些新型的高分子光引发剂体系在微纳米粒子和聚合物刷等方面的应用。     

{4-[4-（对硝基苯甲酰基）苯硫基]苯}苯基碘鎓六氟磷酸盐的合成与光引发性能测试

紫外光固化反应按机理分为自由基固化、阳离子固化以及自由基-阳离子混杂固化.自由基-阳离子混杂固化是指在同一体系里同时通过自由基聚合和阳离子聚合而发生的固化[1].混杂聚合结合了各个聚合反应的优点,表现出很好的协同效应.杂化光引发剂被设计成既能引发自由基聚合又能引发阳离子聚合的光引发剂.据报道,目前常见的杂化光引发剂主要有碘鎓盐类和苯基膦二苯甲酮类[2].     

[4-(对苯甲酰基苯硫基)苯]苯基碘鎓六氟磷酸盐的合成

碘鎓盐;光引发剂;合成;正交试验;光引发性能     

水溶性光引发剂α-氨基苯丙酮盐酸盐的合成和应用

水溶性光引发剂α-氨基苯丙酮盐酸盐的合成和应用;水溶性光引发剂; α-氨基苯丙酮盐酸盐; 合成; 光引发性     

一种新型二苯甲酮类光引发剂的合成及其性能研究

本文先以4-甲基二苯甲酮合成4-(溴甲基)二苯甲酮,然后用4-羟基二苯甲酮和4-(溴甲基)二苯甲酮为原材料合成了一种含二苯甲酮结构的新型光引发剂(MBPBP)。通过核磁共振氢谱图确定了其结构;利用紫外吸收谱图研究了其紫外吸收和光降解性能;最后通过RT-FTIR分析了光引发剂浓度、光照强度和反应单体对光聚合反应的影响。结果表明,MBPBP的摩尔消光系数约为二苯甲酮的1.5倍,吸收范围大大增加,延伸到300nm,吸光效率获得大幅提高,光引发活性远大于传统的二苯甲酮,是一种高效光引发剂。     

吡咯烷基-N-甲酸-丙烯酸乙二醇酯光聚合动力学的研究

采用实时红外技术对所合成的活性稀释剂吡咯烷基-N-甲酸-丙烯酸乙二醇酯的聚合动力学进行了测试.研究了光强、引发剂浓度及引发剂种类对其光聚合的影响.结果表明:光强越强、引发剂浓度越大,聚合速率越高,但是反应的最终双键转化率基本不变,均能达到100%左右.引发剂种类对其光聚合的最终双键转化率的影响不是特别明显,但对聚合速率有一定的影响.     

水溶性光聚合引发剂研究进展

近几年发展起来的水溶性光聚合引发剂（ＷＳＰ）属自由基引发剂，按结构可分为芳酮类，稠环类烃类，聚硅烷类，酰基膦酸盐等，偶氮类及金属有机配合物类，本文综述了这些光引发剂的结构特性，光化学行为，光引发效率及光反应机理等。     

新型引发转移终止剂引发烯类单体活性自由基聚合及共聚合

引发转移终止剂 (Iniferter)是最早实现活性自由基聚合的方法 ,尽管它对聚合过程控制得不是很好 ,但是可聚合单体多 ,能方便地制备接枝和嵌段共聚物 .因此 ,近 2 0年来 ,它一直是高分子合成化学领域的一个研究热点 ,许多新颖结构的引发转移终止剂被合成并用于制备端基功能化聚合物、遥爪聚合物、大分子单体以及接枝和嵌段聚合物等 .本文扼要综述了引发转移终止剂的发展 ,着重综述了我们研究组在C—C键型高活性热引发转移终止剂、新的光引发转移终止剂、可聚合光引发转移终止剂、新型多功能引发转移终止剂和大分子光引发转移终止剂 5个方面的研究进展     

生物光化学

生物光化学研究光在动植物体内所引起的生化现象。例如:经过各种不同波长的光辐照后的生命现象,生长规律,某些生理和病理过程,疾病的产生和治疗机理,细胞的辐射损伤和自然防御,以及光合色素在生物进化中的作用等。本文就光引起的现象:视觉、生物钟(光周期性)、植物的光合作用、辐射损伤及其修复、牛皮癣的治疗、新生儿黄疸病的治疗机理,以及光合色素——藻胆蛋白等七种现象,做了综述性的介绍。     

半导体光催化研究进展与展望

评述了目前半导体光催化在国内外的研究概况,并对存在的问题和未来的发展动向进行简要分析.列举了近30年来关于光催化研究的部分成果,内容涉及光催化剂的制备(包括新催化剂的开发, TiO2、 ZnO、 CdS等光催化剂的各种改性或修饰)、光催化作用机理研究、光催化技术的工程化、光催化技术的各种应用研究和产品开发等等从基础到应用研究的各个方面.总体上来看,半导体光催化基本上是一个没有选择性的化学过程,所以再进行大量的不同反应物的光催化活性的评价研究意义已不是很显著,认为未来的半导体光催化研究应该集中在机理的深刻认识、光响应范围宽和量子效率高的催化剂制备、半导体光催化技术工程化及新型光催化产品开发方面.     

Effect of solvents on electro-spinnability of polystyrene solutions and morphological appearance of resulting electrospun polystyrene fibers

The effects of solvents and their properties on electro-spinnability of the as-prepared polystyrene (PS) solutions and the morphological appearance of the as-spun PS fibers were investigated qualitatively by means of a scanning electron microscope (SEM). The eighteen solvents used were benzene, t-butylacetate, carbontetrachloride, chlorobenzene, chloroform, cyclohexane, decahydronaphthalene (decalin), 1,2-dichloroethane, dimethylformamide (DMF), 1,4-dioxane, ethylacetate, ethylbenzene, hexane, methylethylketone (MEK), nitrobenzene, tetrahydrofuran (THF), 1,2,3,4-tetrahydronaphthalene (tetralin), and toluene. The PS solutions in 1,2-dichloroethane, DMF, ethylacetate, MEK, and THF could produce fibers with high enough productivity, while the PS solutions in benzene, cyclohexane, decalin, ethylbenzene, nitrobenzene, and tetralin were not spinnable. Qualitative observation of the results obtained suggested that the important factors determining the electro-spinnability of the as-prepared PS solutions are high enough values of both the dipole moment of the solvent and the conductivity of both the solvent and the resulting solutions, high enough boiling point of the solvent, not-so-high values of both the viscosity and the surface tension of the resulting solutions.     

ICP–AES法测定稀土硅铁球化剂和孕育剂中钙、镁、铝、锰、镧、铈

建立了电感耦合等离子体原子发射光谱法(ICP–AES)测定稀土硅铁球化剂和孕育剂中Ca,Mg,Al,Mn,La,Ce等元素含量的方法。通过基体匹配消除了铁基体的干扰,Ca,Mg,Al,Mn,La,Ce的分析谱线分别为317.933,279.553,394.401,257.610,333.749,456.236 nm。各元素标准曲线的线性相关系数均在0.999以上,检出限在0.000 1%~0.000 4%之间。方法的加标回收率为99.4%~102.8%,测定结果的相对标准偏差均小于3%(n=11)。用该方法测定标准样品,测定结果与认证值相吻合。该法适用于稀土硅铁球化剂和孕育剂中钙、镁、铝、锰、镧、铈的测定。     

电感耦合等离子体光谱法(ICP-AES)测定银精矿中铜、铅、锌、砷、镉、钙、镁、锰含量

针对银精矿样品复杂,难消解的特点,研究了不同酸溶法和碱熔法对样品的消解情况,建立了硝酸,盐酸,氢氟酸,高氯酸消解银精矿的方法。根据元素灵敏度和抗干扰性,选定各元素的测定波长。通过酸溶样和碱熔样测定结果比对,验证了方法准确性。建立了四酸消解-电感耦合等离子体光谱法测定银精矿中铜、铅、锌、砷、镉、钙、镁、锰含量的方法,元素的线性相关系数均在0.9999以上。通过共存元素干扰实验,确定了银精矿中高含量元素(铜、铅、锌、铁、锑、铋等)对测定元素结果没有影响。方法检出限：Cu 0.0063 mg/L, Pb 0.0159 mg/L ,Zn 0.0090 mg/L,As 0.0192 mg/L, Cd 0.0093 mg/L ,Ca 0.0084 mg/L, Mg 0.0075 mg/L, Mn 0.0081 mg/L。测定下限：Cu 0.0105mg/L,Pb 0.0265 mg/L, Zn 0.0150 mg/L, As 0.0320 mg/L, Cd 0.0155 mg/L, Ca 0.0140 mg/L, Mg 0.0125 mg/L,Mn 0.0135 mg/L。3个样品的相对标准偏差在0.87%~3.56%之间,加标回收率在95.00%~103.56%之间。方法流程短,操作简单,快速,灵敏度和再现性高,结果准确可靠,可以满足银精矿中铜、铅、锌、砷、镉、钙、镁、锰含量的测定。     

液体弹珠：制备策略、物理性质及应用探索

Liquid marbles (LMs) are liquid droplets coated with a layer of lyophobic particles at the air-liquid interface. Since the pioneering work by Aussillous et al. in 2001, LMs have attracted significant attention owing to their facile fabrication, flexibility in the choice of the constituent particles and liquids, intriguing properties such as non-wetting and non-adhesive nature, satisfactory elasticity and stability, as well as promising applications in microfluidics, sensors, controlled release, and microreactors. The classical strategy for the preparation of LMs involves rolling a small volume of a droplet on a lyophobic powder bed for complete encapsulation of the liquid by the particles. In addition, various innovative methods, including electrostatic and coalescent approaches, have been developed for preparing special LMs with a complicated structure or morphology. Diverse materials such as water, surfactant solutions, liquid metals, reagents, blood, and even viscous adhesives have been employed as the internal liquid for the fabrication of LMs. Theoretically, any particulates such as lycopodium, polytetrafluoroethylene, Fe₃O₄, SiO₂, and graphite grains can be employed as the outer coating, but they are usually required to be lyophobic with sizes of less than hundreds of microns. The unique structure of the particle-covered droplet and the dual solid-liquid characteristics endow LMs with some unique and interesting properties, especially the non-wetting and non-adhesive nature. As the lyophobic coating particles restrain the internal liquid from contacting the substrate, LMs can move easily across either solid or liquid surfaces, neither wetting the substrate nor contaminating the internal liquid. An equally fascinating property of LMs is their satisfactory stability, which is necessary for most of their applications. The high stability of LMs stems from the protection of the coating powders and is embodied in both good mechanical stability (remaining intact after being released from a certain height or under a certain compression) and long lifetime (greatly suppressing the evaporation of the internal liquid). These extraordinary properties make LMs promising candidates for use in multitudinous fields, especially droplet microfluidics and microreactors. The potential application of LMs in microfluidics is ascribed to their non-wetting, non-adhesive nature and other features such as an ability to float on a liquid surface, coalescence, split, a small force of rolling friction, and response to external forces. Notably, LMs hold great promise for applications in microreactions, because they can create a confined reaction microenvironment, minimize reagent usage, facilitate unhindered gas exchange between the internal liquid medium and the surrounding environment, and allow the entry/exit of the reactants/products. We herein review the recent advances in LMs, such as manufacturing techniques, formation mechanisms, physical properties, and emerging applications. In particular, much attention is paid to the factors affecting the stability of LMs and the potential strategies to increase their stability. Moreover, this review discusses the challenges in the future development of LMs, suggests several possible ways of addressing these challenges, and forecasts the future development directions. We believe that this review can help researchers gain a better understanding of LMs and promote their further advances.     

超分子相互作用主导的纳米药物成核

纳米沉淀法是目前制备纳米药物的主要途径, 是指通过向药物的良溶剂中引入不良溶剂产生过饱和体系, 进而形成纳米尺度药物颗粒的方法. 该方法操控灵活, 能够大范围地选择药物分子、 溶剂、 载体、 表面活性剂及其它赋形剂, 实现对纳米药物成核及生长过程的调控. π-π堆积和疏水相互作用等分子间弱相互作用能够主导纳米药物成核, 从而用于制备高生物安全性的无载体纳米药物(CFNs). 目前超分子自组装在成核过程中的具体作用、 协同效应及调控方法尚缺少归纳总结. 根据纳米沉淀法的成核理论, 本文对超分子相互作用在成核过程中的重要贡献进行了诠释; 基于目前单药自组装CFNs的进展, 对多药共组装CFNs的优势进行了强调; 并将超分子相互作用主导成核的概念拓展到通过金属离子螯合形成的CFNs. 从理论上阐明了超分子相互作用在纳米药物成核过程中的主导作用, 将极大促进以高生物安全、 多功能及以联合治疗为标志的下一代CFNs的发展.     

EFFECT OF STRESS-INDUCED REACTIONS ON MORPHOLOGICAL STRUCTURE AND PROCESSABILITY OF PVC DURING PAN-MILLING

The effect of pan-milling on morphological structure, processability and properties of PVC was studied through SEM, FTIR, granulometer, GPC and mechanical properties test in the hope of gaining ease in operation, needless of plasticizers, a clean and efficient route for improving the processability of PVC through stress-induced reactions,fulfilling the idea of “plasticizing PVC by itself”. The experimental results show that during pan-milling at ambient temperature, within 2-3 min, the microcrystalline structure of PVC becomes indistinct, the grain size of PVC is reducedfrom 130-160 μm to 1-50 μm the molecular weight of PVC is slightly decreased, the variation of molecular weight distribution is indistinct, the plasticizing time and torque at balance drop a great deal from 71-132 s to 31-33 s and from 18.2-22.1 Nm to 14.7-18.4 Nm, respectively, the processability of PVC is markedly improved, and the mechanical properties get enhanced too.     

Regional distributions of manganese,iron, copper,and zinc in the brains of 6-hydroxydopamine-induced parkinsonian rats

Time courses of changes in manganese, iron, copper, and zinc concentrations were examined in regions of the brain of a 6-hydroxydopamine (6-OHDA)-induced rat model of Parkinson’s disease using inductively coupled plasma mass spectrometry (ICP-MS). The concentrations were simultaneously determined in brain section at the level of the substantia nigra 1, 3, 7, 10, 14, and 21 days after the 6-OHDA treatment and compared with those of control rats. The distributions of these elements were obtained for 18 regions of the sagittal section (1-mm thick). The ICP-MS results indicated that Mn, Fe, Cu, and Zn levels of the 6-OHDA-induced parkinsonian brain were observed to increase in all regions that lay along the dopaminergic pathway. In the substantia nigra, the increase in Mn level occurred rapidly from 3 to 7 days and preceded those in the other elements, reaching a plateau in the 6-OHDA brain. Iron and Zn levels increased gradually until 7 days and then increased rapidly from 7 to 10 days. The increase in the copper level was slightly delayed. In other regions, such as the globus pallidus, putamen, and amygdala, the levels of Mn, Fe, Cu, and Zn increased with time after 6-OHDA treatment, although the time courses of their changes were region-specific. These findings contribute to our understanding of the roles of Mn and Fe in the induction of neurological symptoms and progressive loss of dopaminergic neurons in the development of Parkinson’s disease. Manganese may hold the key to disturbing cellular Fe homeostasis and accelerating Fe levels, which play the most important role in the development of Parkinson’s disease.     

集体儿童膳食供给及头发中锌,铁,钙,碘元素含量调查

以华清村幼儿园２２５名儿童为对象进行了膳食供给情况调查和头发中锌、铁、钙、碘元素含量的测定。结果显示,膳食中钙元素的供给不足ＲＤＡ的５０％,头发检测钙、锌、碘、铁四元素分别为７６％、６０％、３７．８％、３４．７％的儿童达不到正常参考值标准,故除应加强膳食管理,为儿童提供科学、合理的平衡膳食外,还必须补充适量吸收好、利用率高的钙制剂,同时在监测下有针对性地补充铁、锌、碘元素。