水性丙烯酸酯涂料改性的研究进展

介绍了环氧树脂改性水性丙烯酸涂料、有机氟改性水性丙烯酸涂料、聚氨酯改性水性丙烯酸涂料、有机硅改性水性丙烯酸涂料及外加纳米助剂改性水性丙烯酸涂料的研究进展,经过改性水性丙烯酸树脂涂料能够获得优良的综合性能,提高了水性丙烯酸树脂涂料的使用性能,扩大了水性丙烯酸树脂涂料的推广应用范围。提出了当前水性丙烯酸改性研究存在的难题,指出将来水性丙烯酸涂料的研究应朝着多功能、高性能、多样化和绿色化方向发展。

二氧化钛在光催化环保涂料领域中的应用研究进展

二氧化钛光催化涂料是一种比较理想的光催化降解气态环境污染物的环保功能涂料。通过元素掺杂,使得二氧化钛催化体系内载流子的分离效率得到显著提高,进一步拓宽了二氧化钛光催化材料对可见光谱的吸收范围,提高了其光催化性能。阐述了近年来国内外1种元素掺杂二氧化钛、2种元素共掺杂二氧化钛光催化材料在环保功能涂料等领域中的应用研究进展,并提出在二氧化钛光催化涂料掺杂改性研究中面临的主要难题及今后研究的方向。

健康环保建筑功能涂料的研究进展

健康环保建筑功能涂料具有节约能源、节约资源、对环境友好、不产生污染等优点。介绍了光催化涂料、水性丙烯酸酯涂料、隔热保温仿石涂料等环保功能涂料,并重点阐述了光催化环保涂料。对这些涂料的制备、性能和应用进行了综述,提出了健康环保建筑功能涂料面临的主要难题及今后努力研究的方向。

Bi2O3在隔热保温吸音仿石涂料中的应用

为了考察在仿石涂料中加入Bi2O3对甲醛光催化降解率的影响,将Bi2O3分散到隔热保温吸音仿石涂料中,制得了健康环保隔热保温吸音仿石涂料,研究了Bi2O3用量对隔热保温吸音仿石涂料的硬度、附着力、接触角、吸水率、耐冲击性等性能的影响。以甲醛作为光催化降解模型污染物,评价了该涂料的光催化活性。结果表明:物理综合性能最好的是Bi2O3含量为1.0%时的涂料,其硬度为3 H、附着力为0级、接触角为77.82°、吸水率为1.32%,涂膜正、反面抗冲击性分别为5 N/45 cm、5 N/8 cm。加入Bi2O3的涂料对甲醛的降解程度较不加入Bi2O3的涂料有显著提高,当Bi2O3含量为0.5%时,光照210 min,所研制的仿石涂料对甲醛的光催化降解率达到37.8%。

尾矿库加高扩容工程排渗飘管与土工席垫联合渗控效果评价

土工席垫具有良好的集水和排水效果,但在长期运行后,土工席垫内部易出现淤堵失效现象,给尾矿库的后期加高扩容工程建设带来不利影响,因此有必要提出解决土工席垫失效带来的排渗安全问题。选取某土工排渗席垫发生部分失效现象的尾矿库工程,提出增设水平排渗飘管措施来解决尾矿库加高扩容工程的排渗安全性,并根据所提方案建立反映主要坝体结构、水文地质特征和排渗系统的尾矿库渗流分析三维有限元模型,采用饱和—非饱和渗流计算理论计算分析运行期库址区在不同工况下的渗流场,并研究加高扩容后尾矿库的渗流特性,进而评价所提措施的合理性。结果表明,水平排渗飘管与土工席垫的联合排渗措施可有效提高堆积坝的排渗能力,满足尾矿库在加高扩容后的渗流安全要求,且所提排渗措施可有效控制坝体内浸润面,因而在技术上合理。另外,建议在尾矿库加高扩容工程中采用土工席垫排渗时,坝体相邻土工席垫布设高程差不超过8m。研究成果可供类似工程参考。

一种含三苯胺基团的席夫碱的合成及其光学性能

以4-吡啶甲醛和4-(N,N-二苯胺基)苯胺为原料,合成了一种含三苯胺基团的席夫碱4-吡啶甲醛-N-(4-苯)二苯胺(Ⅲ),其结构经~1H NMR,^(13)C NMR,IR,MS(ESI)和元素分析确证。采用UV-Vis研究了Ⅲ的光学性能。结果表明:Ⅲ在二氯甲烷,乙酸乙酯,乙醇,乙腈和DMF中的λmax均位于293 nm和400 nm附近。

Crystal Structure, One-and Two-photon Excited Fluorescence and Bioimaging of a D-π-A Structural Triphenylamine Derivative

An electron donor-π-bridge-electron acceptor(D-π-A) optical functional organic compound comprising a triphenylamine moiety as the electron donor and pyridine moiety as the electron acceptor was synthesized. The structure of the compound was solved by single-crystal X-ray diffraction analysis. It crystallizes in monoclinic, space group P21, with a = 9.753(5), b = 8.815(5), c = 25.554(5) ?, β = 96.315(5)°, V = 2184(2) ?~3, Z = 2, D_c = 1.136 g/m^3, F(000) = 792, Μr = 746.92, μ = 0.069 mm^(-1), the final R = 0.0658 and wR = 0.1730 for 6790 observed reflections with I > 2(I). Study of nonlinear optical properties shows that the compound exhibits excellent two-photon excited fluorescence with the two-photon absorption cross-section value of 116 GM. The structure-property relationship was researched in detail through X-ray crystallography and quantum chemical calculation. Result of living cell imaging experiment shows its potential in fluorescence microscopy bioimaging.

Structure,Calculation,Optical Properties and Bioimaging of an Organic Fluorescence Compound

A π-conjugated optical functional organic compound comprising an electron donor(D) and acceptor(A) was synthesized. The crystal structure was determined through single-crystal X-ray diffraction analysis. It crystallizes in monoclinic, space group P2_(1) with a = 9.6610(5), b = 8.9093(4), c = 26.303(1)Å, β = 96.262(4)°, V = 2250.5(2)Å^(3), Z = 4, D_(c)= 1.220 Mg/m^(3), F(000) = 872, Μr = 413.50, μ = 0.072 mm^(-1), the final R = 0.0569 and wR = 0.1700 for 8976 observed reflections with I > 2σ(I). Optical properties were studied in detail through theoretical calculation and experimental study. The result reveals that the compound exhibits excellent fluorescence performance and it can be compatible in the cytoplasm of NIH/3T3 cells, showing potential in fluorescence microscopy bioimaging.