基于苯烯的可见光引发聚合诱导自组装的研究

以商用蓝光LED为光源,聚2-乙烯基吡啶(P2VP)为大分子链转移剂,未添加光引发剂或光催化剂,在常温下甲醇溶液中进行了苯乙烯(St)的光引发聚合诱导自组装(PISA).考察了当P2VP的分子量为4000,[St]:[P2VP]=4000:1时,聚合时间对聚2-乙烯基吡啶嵌段聚苯乙烯(P2VP-b-PSt)纳米粒形貌的...     

可见光响应的荧光增白剂基多功能光引发体系

将4,4’-双(苯并噁唑-2-基)二苯乙烯(BBS)、7-二乙氨基-4-甲基香豆素(C 1)、双-(三嗪基氨基)-二苯乙烯二磺酸(CBUS 450)、4,4’-双(2-磺酸苯乙烯基钠)联苯(CBS X)和1,4-双(2-苯并噁唑基)萘(OB 7)等5种含有不同荧光发射基团的商用荧光增白剂分别与二苯基碘鎓六氟磷酸盐(IOD)组成二元光引发体系,再与N-乙烯基咔唑(或叔胺)组成三元光引发体系,在可见光发光二极管(LED)光源辐照下,通过自由基聚合反应制备丙烯酸酯树脂,同时通过阳离子/自由基同步聚合反应制备互穿网络聚合物.利用紫外-可见分光计荧光分光计、电子自旋共振波谱仪、傅里叶变换红外光谱仪、扫描电子显微镜和原子力显微镜对荧光增白剂和互穿网络聚合物进行了表征.研究结果表明,荧光增白剂在可见光LED的照射下可作为具有高效能的多功能光引发剂.其中苯并噁唑-萘衍生物(OB 7)、三嗪茋衍生物(CBUS 450)、二苯乙烯-联苯衍生物(CBS X)和香豆素衍生物(C 1)基二元光引发体系和三元光引发体系即使在空气中也表现出了优异的光引发能力.     

一种对Fe2+和Fe3+识别的显色试剂合成与应用研究

以罗丹明6G、水合肼及邻香兰素为原料设计合成了一种新型光学探针(P1),其结构经~1H-NMR,~(13)C-NMR,MS及元素分析进行表征。通过紫外-可见光谱法研究了探针对金属离子的识别能力。结果表明,探针P1在甲醇/Tris-HCl缓冲(V/V=3∶7,pH 8.34)溶液中无色,随着Fe~(2+)或Fe~(3+)的加入,溶液由无色转变为红色,其最大吸收波长为526 nm。最佳测量条件下,在1×10~(-6)～1×10~(-5) mol·L~(-1)范围内,Fe~(2+)或Fe~(3+)的浓度与吸光度线性关系良好(Fe~(2+),R~2=0.950;Fe~(3+),R~2=0.992)。探针与Fe~(2+)或Fe~(3+)形成1∶1型配合物,络合常数分别为K_(Fe)~(2+)=1.834×10~(5 )M~(-1)、K_(Fe)~(3+)=1.457×10~(5 )M~(-1),识别过程均不可逆。除了高浓度Cu~(2+)对探针识别Fe~(2+)或Fe~(3+)有影响外,其它常见金属离子没有干扰。P1有望发展成为裸眼识别Fe~(2+)和Fe~(3+)的高选择性探针。     

环境友好的可控自由基聚合

近年来,我们以环境友好、简便快捷、活泼可控、单体普适性强的光活化室温RAFT聚合为主攻目标,针对长波紫外或可见光活化室温RAFT聚合反应特征及其应用展开了深入探讨。研究表明,作为RAFT聚合链转移剂的硫酯化合物具有分别在紫外光和可见光波段的双波段光吸收特征。短波紫外光强吸收,导致硫酯键的光解。然而,可见光波段弱的光吸收则活化其自由基加成产物的断裂反应,加速室温RAFT过程并确保聚合反应的活性特征。高效光引发,可显著缩短RAFT聚合引发期。通过光开关,可实时启动或终止聚合。与常规热聚合不同,室温以下这类聚合反应不存在明显的热活化效应。由此,我们创建了环境友好、单体普适性强、快速可控、通过光开关可实时控制聚合反应启动或终止的光活化室温RAFT聚合,将其成功拓展到太阳光和水溶液聚合体系,并运用于温和条件下新兴水溶性温敏高分子、仿生光响应高分子的快捷可控合成。     

改性PAN纤维与Fe3+的配位反应及配合物的催化性能

采用盐酸羟胺和水合肼的混合物分别对PAN纤维进行改性制备了偕胺肟改性PAN纤维(AO-PAN)和混合改性PAN纤维(M-PAN), 并分别与Fe³⁺进行配位反应生成两种改性PAN纤维铁配合物(Fe-AO-PAN和Fe-M-PAN). 研究了配位反应的动力学特性及温度和Fe³⁺初始浓度的影响, 并采用DRS和ESR技术比较了两种不同改性PAN纤维铁配合物对偶氮染料活性红195氧化降解反应的催化性能. 结果表明, 在所设定的温度和浓度范围内, 两种改性PAN纤维与Fe³⁺之间的配位反应平衡符合Langmuir 和Freundlich 吸附等温模型以及Lagergren准二级动力学方程, 并且AO-PAN比M-PAN更容易与Fe³⁺发生配位反应. 在相同条件下AO-PAN与Fe³⁺反应的配合量和反应速率常数均比M-PAN与Fe³⁺反应的高. 两种配合物对染料的氧化降解反应具有催化作用, 暗态条件下Fe-M-PAN比Fe-AO-PAN表现出更高的催化活性, 而光辐射条件下Fe-AO-PAN的催化活性显著增强.     

含胺基功能性单体的聚合研究——Ⅺ.甲基丙烯酸-2-羟基-3-吗啉基丙酯的合成及其聚合

<正> 一些含有吗啉基的高聚物,作为含脂肪叔胺基的医用高分子材料而被瞩目。我们曾报道了N-(N′-次甲基吗啉)取代丙烯酰胺的合成,及其在过氧化二月桂酰引发下的聚合动力学。它的聚合规律和我们以往所报道的含脂肪叔胺基单体的聚合一样。本文合成了在同—分子中既含吗啉基,又含有羟基的丙烯酸脂,即甲基丙烯酸-2-羟基-3-吗啉基丙酯(HMPMA),研究了在过氧化二月桂酰(LPO)引发下的热聚合,以及在芳香酮作增感剂下的光聚合。关于HMPMA的合成,虽有所报道,但关于其表征,在过氧化     

3-甲基丙烯酰胺基-9-乙基咔唑的合成、聚合及其光化学行为研究

含供电子芳杂环的丙烯酰类功能性单体的合成、聚合及光化学行为一直吸引着人们的兴趣 .原因之一是由于这类单体可用一般的自由基引发剂引发聚合 ,其聚合物表现出包括荧光及光引发行为的光化学性质甚被瞩目[1,2 ] .在以往的工作中发现 ,这类给电子性生色团的丙烯酰类单体在相同生色团浓度下的荧光强度明显低于其聚合物或饱和模型化合物 ,即表现出荧光结构自猝灭效应(ＳＳＱＥ) [3～ 5] .咔唑是一个强给电子性芳香杂环化合物 .虽然文献中已有关于含咔唑生色团的丙烯酰类单体报道 ,但很少涉及其荧光或光敏性质 .近来 ,我们合成了多个含有咔唑生…     

N、F共掺杂TiO2可见光响应光催化剂的酸催化水解法制备及表征

采用酸催化水解法由TiCl4、NH4F混合液合成N、F共掺杂可见光响应TiO2光催化剂(TONF).以苯酚为模型物,考察了催化剂在可见光区、紫外光区的催化活性.采用X射线光电子能谱(XPS)、紫外.可见漫反射光谱(DRS)、X射线衍射(XRD)、打描电子显微镜(SEM)及低温氮物理吸附对光催化剂的晶相结构、光谱特征和表面结构等进行表征.结果表明,适量的N、F共掺杂TONF催化剂表现出较高的可见光催化活性.N、F共掺杂可显著提高TiO2分散性能,促进锐钛矿相的形成,抑制其向金红石相转变,提高相转变温度.N掺杂可提高TiO2在可见光区的吸收;F掺杂可使TiO2能隙变窄.     

配位链转移聚合合成高密度聚乙烯-嵌段-等规聚丙烯嵌段共聚物

通过利用配位链转移聚合方法,设计"一锅两步法"合成路线合成了高密度聚乙烯-嵌段-等规聚丙烯两嵌段共聚物.双水杨醛亚胺锆催化剂/甲基铝氧烷催化体系,在二乙基锌作链转移剂的情况下,催化乙烯进行配位链转移聚合,生成双(聚乙烯基)锌并作为大分子链转移剂参与第二步由二甲基吡啶胺铪催化剂催化的丙烯等规聚合反应,最终得到高密度聚乙烯-全同聚丙烯(HDPE-b-i PP)嵌段共聚物.嵌段聚合物的分子量及分布、热性能、微结构等利用高温凝胶色谱(HT-GPC)、示差扫描量热法(DSC)、高温核磁(NMR)进行了明确表征.该类嵌段聚合物可用于增容商业料HDPE/i PP的共混物.扫描电镜(SEM)表征结果显示,通过加入10 wt%嵌段聚合物,共混物(70/30)中分散相粒子尺寸显著减小,两相界面粘结明显改善.     

Porphyrinic covalent organic framework designed by molecular engineering as heterogeneous photocatalyst for aerobic mediated RAFT polymerization

Covalent organic frameworks (COFs) have gained increasing attention as heterogeneous materials for their prominent applications in photocatalytic processes. The already tailored structure endows COFs with ordered dimensional channels for the separation and migration of the electro-hole pairs and improves their photocatalytic properties. In this contribution, oxygen-mediated RAFT polymerization was achieved by using M-TCPP-DHTA-COFs (M = H₂ or Zn) as photocatalysts with the assistance of TEA as co-catalyst producing polymers with accurate molecular weight and narrow molecular weight distribution under visible light irradiation. The control experiments revealed excellent dual control behavior of light and gas toward polymerization processes. Notably, porphyrinic COFs can be straightforwardly separated and recycled for recycling experiments and exhibit remarkable compatibility features of controllable polymerization for functional monomers under aerobic conditions. This study offers a promising pathway for the construction of an efficient heterogeneous catalyst of oxygen-mediated RAFT polymerization and extends the novel applications of porphyrin-based COF materials.     

Preparation and characterization of a novel polyimide liquid crystal vertical alignment layer

A series of diamines with a side chain containing rigid biphenyl unit and nonpolar alkoxy side end group [4-alkoxy-biphenol-3′,5′-diaminobenzoate] (Cm-BBDA, m = 4, 6, 12) were synthesized and their chemical structures were confirmed by Fourier Transform Infrared Spectroscopy (FT-IR) and nuclear magetic resonance spectroscopy (¹H NMR). Then three polyimides (PIs) were prepared by copolymerization of pyromellitic dianhydride (PMDA), 4,4′-methylenedianiline (MDA) and Cm-BBDA in N-methyl-2-pyrrolodone (NMP), and chemical structures of all PIs were confirmed by FT-IR. Structural identification of all poly(amic acid)s (PAA) was performed by ¹H NMR. Liquid crystal (LC) cells were fabricated using these PIs as the alignment layer for characterization of the alignment properties of LCs. It was found that the planar alignment was obtained when PI with side chain containing alkoxy side end group of 4 carbon atoms was employed and the vertical alignment was observed when alkoxy side end groups of 6 or 12 carbon atoms were included. A uniform vertical alignment was validated by polarizing microscopy. It was testified that LC vertical alignment possessed high thermal stability.     

A novel polyurethane macroinitiator for free radical polymerization

Polyurethane macroinitiator (PUMI) has been prepared from toluene diisocyanate and benzopinacol and successfully used to polymerize acrylonitrile (AN). The effects of PUMI and AN concentrations and polymerization time on the yield, number average molecular weight and intrinsic viscosity of the resulting Polyacrylonitrile have been studied.     

Perylene as a visible light photoredox catalyst for photoinduced electron transfer-reversible addition-fragmentation chain transfer (PET-RAFT) polymerization of MMA

Abstract

The organic photocatalyst, perylene, was used to mediate photoinduced electron transfer (PET) reversible addition-fragmentation chain transfer polymerization (RAFT) of methyl methhacrylate (MMA) under light irradiation in N,N-dimethylformamide (DMF) at 25°C with 4-cyanopentanoic acid dithiobenzoate (CPADB) as chain transfer agent (CTA). Kinetic studies confirmed that the polymerization obeyed the first order kinetic m'odel. The production of PMMAs with a good control of molecular weights (M_n,GPC) and narrow polymer molecular weight distribution (M_w/M_n) were obtained. It is found that well-controlled PET RAFT polymerization of MMA can be manipulated even with the amount of perylene decreasing to ppm level. No polymer was obtained in the absence of light irradiation, implying that the model of PET RAFT polymerization of MMA is an ideal light “on”-“off” switchable system. Furthermore, the speed of PET RAFT polymerization of MMA was also finely tunable by the external light irradiation intensity. The resultant PMMA macro-CTA was characterized by ¹H nuclear magnetic resonance spectrum (¹H NMR) and gel permeation chromatography (GPC). The accessibility of the high end group fidelity was further demonstrated by chain extension experiments.     

Benzoylformamides as new photocaged bases for photo-latent anion polymerization

Benzoylfonnamide（BFA） derivatives are proposed as new photocagcd bases with good solubility in epoxy resin.Initially their structures were confirmed by ¹H NMR,¹³C NMR,and elemental analysis.Next,we detail their thermal stability,solubility behavior,and photolysis products.Furthermore,the model photo-latent anion polymerization（AP） of epoxide system in the presence of BFA-dBA（N,N-dibenzyl-2-oxo-2-phenylacetamide） as a photocaged base has been investigated,and excellent photopolymerization profile is obtained.     

Sandwich layer structure of a novel polyimide with methylene spacing groups in biphenyl side chain

The aggregation structure of a novel polyimide (PI-6) with six methylene flexible spacing groups in biphenyl side chain was investigated using polarized optical microscope (POM), wide/small-angle X-ray diffraction (WAXD/SAXD) and molecular simulation approach. Depending on increasing temperature, the sandwich layer aggregation structure of PI-6 was developed from the thermo reversible gel. The backbones are lamellar stacking with 11.5 Å thickness. The side chains are randomly packed into the backbone lamellar intervals and the width of this layer for both backbone and side chain is about 23.1 Å which is consistent with the simulation data.     

A novel acrylate carrying a hindered phenol moiety as monomer and terminator in radical polymerization

Radical polymerizations of methyl methacrylate (MMA), styrene (St), and vinyl acetate (VAc) were carried out in the presence of a novel phenyl acrylate derivative bearing a hindered phenol moiety (HPA). It has been clarified that HPA acts as a retarder and inhibitor for the polymerizations of MMA and VAc, respectively, and that in the polymerization of St it behaves as a monomer to give a copolymer. These additive effects were interpreted in terms of intramolecular transfer of the phenolic hydrogen in competition with propagation of the HPA radical to monomers. © 1994 John Wiley & Sons, Inc.     

Poly(propylene imine) dendrimers as hydrogen donor in Type II photoinitiated free radical polymerization

Three generations of poly(propylene imine) dendrimers, namely (PPI-16, PPI-32 and PPI-64; 16, 32 and 64 for generations 3, 4 and 5, respectively) were used as hydrogen donors in photoinitiated free radical polymerization of methyl methacrylate by using one of the following photosensitizers; benzophenone and thioxanthone. The effect of generation number of the dendrimer on photoinitiation efficiency and molecular weight of the resulting polymers was investigated. Glass transition temperatures and particle size measurements of the resulting polymers indicated the presence of nearly stretched polymer chains around the dendrimers. The location of hydrogen donating sites was evaluated by photolysis studies in the absence of monomer by using a stable radical namely, 2,2,6,6-tetramethylpiperidine-N-oxyl free radical (TEMPO) and showed that hydrogen abstraction occurs from the inner tertiary amino groups. The TEMPO attached dendrimers were further used in the nitroxide mediated radical polymerization (NMP) of styrene to yield star polymers.     

Preparation and characterization of novel polyimide/functionalized ZnO bionanocomposite for gas separation and study of their antibacterial activity

In the present investigation novel Polyimide/functionalized ZnO (PI/ZnO) bionanocomposites containing amino acid (Methionine) and benzimidazole pendent groups with different amounts of modified ZnO nanoparticles (ZnO NPs) were successfully prepared through ultrasonic irradiation technique. Due to the high surface energy and tendency for agglomeration, the surface ZnO NPs was modified by a coupling agent as 3- methacryloxypropyl-trimethoxysilane (MPS) to form MPS-ZnO nanoparticles. The ultrasonic irradiation effectively changes the rheology and the glass transition temperature and the crystallinity of the composite polymer. PI/ZnO nanocomposites were characterized by Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD), scanning electron microscopy (SEM) and transmission electron microscope (TEM). TEM analysis showed that the modified ZnO nanoparticles were homogeneously dispersed in polymer matrix. The TGA results of PI/ZnO nanocomposites showed that the thermal stability is obviously improved the presence of MPS-ZnO NPs in comparison with the pure PI and that this increase is higher when the NP content increases. The permeabilities of pure H₂, CH₄, O₂, and N₂ gases through prepared membranes were determined at room temperature (25 °C) and 20 bar feed pressure. The membranes having 20% ZnO showed higher values of H₂ permeability, and H₂/CH₄ and H₂/N₂ ideal selectivities (the ratio of pair gas permeabilities) compared with other membranes. The antibacterial activity of bionanocomposite films was tested against gram-positive bacteria (Staphylococcus aureus and Bacillus subtilis) and gram-negative bacteria (Escherichia coli and Pseudomonas aeruginosa). Further, it was observed that antibacterial activity of the resulting hybrid biofilms showed somewhat higher for gram-positive bacteria compared to gram-negative bacteria.     

Synthesis and characterization of a double photochromic initiator for cationic polymerization

A novel cationic photoinitiator namely, 2-benzyl-2-(N,N-dimethyl-2-oxo-2-phenylethyl) ammonium hexafluoroantimonate-1-(4-morpholinophenyl)-butane-1-one (BDMPP⁺ ), carrying two photochromophoric groups was synthesized and characterized. Theoretical absorption characteristics of the salt were studied and compared with those obtained experimentally. Photoinitiation activity of this salt was demonstrated by polymerization of various monomers at λ = 350 nm. Upon irradiation by UV light, cationic species formed from homolytic dissociation followed by electron transfer or directly by heterolytic scission initiate cationic polymerization.