黄酮/叔胺引发三丙二醇二丙烯酸酯的光聚合反应

采用实时红外光谱(RTIR)研究了黄酮(FL)为紫外光光敏剂, 不同氢给体(如叔胺)为助引发剂时三丙二醇二丙烯酸酯(TPGDA)的光聚合反应. 结果表明, FL分子中的大π共轭体系使其UV吸收峰的摩尔消光系数(ε_max)远远高于商业化光敏剂二苯甲酮(BP). 当FL与不同助引发剂配合使用时, TPGDA光聚合动力学有较大差异, 其中叔胺体系助引发剂能够与激发态FL发生有效的电子/质子转移过程, 产生胺烷基自由基活性种引发TPGDA的光聚合反应, 所得固化膜的最终双键转化率(DC_f)为93%~97%, 接近完全固化; 而芝麻素(SM)及胡椒环(BDO)作为助引发剂时TPGDA的聚合速率则很低, 固化膜的DC_f仅为32%~38%. 当光敏剂质量分数为1.0%, 4-N,N'-二甲氨基苯甲酸乙酯(EDAB)质量分数为1.0%时, FL/EDAB引发TPGDA的聚合动力学与商业化BP/EDAB的相同, 所得固化膜的DC_f均为97%.     

UV-光固化光纤涂料的研制

本文采用环氧丙烯酸酯与聚氨酯丙烯酸酯共混聚合的方法制备出新型的UV-光固化光纤涂料,其主要性能较好.研究了基体组成、引发剂、稀释剂以及固化工艺对UV-固化光纤涂料的光固化速度的影响.通过实验发现,环氧丙烯酸酯与聚氨酯丙烯酸酯的配比为 4:6～6:4、稀释剂的含量不大于20%时固化速度较快、性能较好,同时固化时灯距与固化膜厚度对固化速度的影响较大.     

紫外光固化涂料及其发展状况

紫外光固化涂料具有高效率、低消耗的特点,是一种新型环保节能型涂料。文章综述了紫外光固化涂料的特点、固化原理、主要组成包括齐聚物、活性稀释剂、光引发剂和助剂以及紫外光固化涂料的发展前景。     

芳香叔胺引发丙烯腈光聚合研究

我们发现芳香叔胺是丙烯腈聚合极有效的光引发剂。芳香叔胺苯环上氢被正性基取代时,引发能力增加,被负性基取代时,引发能力下降。下列胺的活性次序是:N,N-二甲基对甲苯胺(DMT)>N,N-二羟乙基对甲苯胺(DHET)>N,N-二甲基苯胺(DMA)>N,N-二甲胺基苯甲醛(DMB)>N,N-二甲基对硝基苯胺(DNA)。芳香叔胺引发丙烯腈光聚合属自由基机构,聚合速度与叔胺浓度的0.66次方成正比。在叔胺浓度为10~(-2)—10~(-4)M范围内,聚合物平均聚合度的倒数与叔胺浓度的0.5次方成正比。初步认为在紫外光激发下,芳香叔胺与丙烯腈分子生成激发态电子转移络合物,再分解产生自由基,引发丙烯腈聚合。     

具有光引发活性腰果酚衍生物的合成及其UV固化

以腰果酚与4-溴甲基二苯甲酮为原料,合成了具有光引发活性的腰果酚衍生物,收率86%。 该衍生物的光引发活性优于普通的二苯甲酮。 在不加其它光引发剂的情况下,UV光照30 s该液体衍生物即可固化。 该衍生物与腰果酚不同比例的混合物,也可进行UV 固化,腰果酚含量越高,所需固化时间越长。膜的硬度为3H-5H,且具有较好的耐溶剂与耐酸碱性能,可望用于防腐漆中。     

紫外光引发环氧树脂的下行前线聚合行为

采用紫外光(UV)引发法研究了221型脂环族环氧树脂的下行前线聚合行为.探讨了光引发剂、热引发剂用量和预热温度等对聚合前线的推动速率Vf和前线引发时间ti的影响,并利用傅里叶变换红外光谱(FTIR)、热重(TG)和差示扫描量热(DSC)等对固化物结构和热性能进行了表征.研究结果表明,提高光引发剂浓度、热引发剂浓度或预热温度,均可提高聚合前线的推动速率Vf,缩短引发时间ti.采用该技术制备的环氧树脂固化物具有较好的均一性及热稳定性.     

胺对有机过氧化物引发聚合的影响

<正> 有机过氧化物引发烯类单体的聚合,可以加入芳叔胺促进过氧化物的分解,提高聚合速度。其中最常用的芳叔胺有N,N-二甲苯胺(DMA)、N,N-二甲基对甲苯胺(DMT),本文采用过氧化二苯甲酰(BPO)、过氧化二月桂酰(LPO)、叔丁基过氧化氢(TBH)和过氧化苯甲酸叔丁酯(TBPB)四种过氧化物为引发剂进行甲基丙烯酸甲酯(MMA)的本体聚合,测得其聚合速度R_p的顺序为LPO>BPO>TBH>TBPB,但在添加芳叔胺DMT或脂环叔胺N-乙基哌啶(NEP)时,则聚合速度的顺序变为BPO-胺>LPO-胺>TBH-胺>TBPB-胺。添加这两种叔胺虽然都能促进聚合,但只对BPO引发剂有显著的影响,研究结果如下:     

聚合物涂层光稳定化研究进展

用于改造各种材料的表面性质并防止其光老化的聚合物涂层的光稳定化技术近年来已经成为高分子材料科学和光化学领域的又一研究热点。本文以紫外光固化聚合物涂层为重点综述了该研究领域的发展过程、理论研究特点和应用技术的生长点,并对聚合物涂层光稳定化技术的最新进展进行了评述,讨论了聚合物涂层光稳定化技术中新型光固化树脂,多功能单体、光引发剂和光稳定剂（包括紫外吸收剂和受阻胺类稳定剂）的特点及作用机理。     

防污涂料用丙烯酸树脂的合成研究

以偶氮二异丁腈为引发剂,利用溶液聚合的方法,对丙烯酸、丙烯酸酯和甲基丙烯酸酯进行三元共聚,合成了带有羧酸基团的丙烯酸树脂共聚物,红外光谱表征结果与预期产物所含基团吻合。对反应过程中各个影响因素进行了讨论,并由正交实验得出了最优化的合成条件:引发剂用量为2.5%,单体质量分数40%(wt.),加热温度80℃,及单体滴加时间为2.5h。该合成树脂具有稳定的分子量及粘度,可与金属盐的反应用来制备防污涂料的基料。     

{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].     

Comparative studies of the effects of dimethylaniline,methylaniline and aniline in the benzophenonesensitized photopolymerization of methyl methacrylate in bulk and in solution

Comparative studies of the photopolymerization of methyl methacrylate (MMA) at 35 using benzophenone (BP) as sensitizer in combination with dimethylaniline (DMA), methylaniline (MA) or aniline (A) are reported. In each case the initiator exponent is appreciably less than 0.5. Considering rates of polymerization, inhibition periods and apparent activation energy, the relative effectiveness of the amines in photopolymerization is DMA > MA > A. Solvent effects are also different in the 3 amine systems. In each case photoreduction of BP by the amine, through formation of the BP'-amine exciplex, leads to generation of an amine radical and the semipinacol radical, the former acting as an initiator and the latter as a terminator (primary radical termination). Kinetic analysis indicates that the rate constants of initiation, k_c for the amine radicals lie in the order DMA radical > MA radical > A radical.     

Preparation of a copolymer of methyl methacrylate and 2‐(dimethylamino)ethyl methacrylate with pendant 4‐benzyloxy‐2,2,6,6‐tetramethyl‐1‐piperidinyloxy and its initiation of the graft polymerization of styrene by a controlled radical mechanism

The macroinitiator of a copolymer (PMD_BTM) of methyl methacrylate (MMA) and 2‐(dimethylamino)ethyl methacrylate (DAMA) with 4‐benzyloxy‐2,2,6,6‐tetramethyl‐1‐piperidinyloxy (BTEMPO) pendant groups was prepared by the photochemical reaction of tertiary amine groups of the copolymer with benzophenone in the presence of BTEMPO. The radical copolymerization of MMA and DAMA was carried out first with azo‐bis‐isobutyronitrile (AIBN) as an initiator; then, the dimethylamine groups of the copolymer constituted a charge‐transfer complex with benzophenone under UV irradiation, and the methylene of ternary amine and diphenyl methanol radicals were produced. The former was capped by BTEMPO, and the nitroxide (BTEMPO) was attached to the polymeric backbone. The amount of pendant BTEMPO on PMD_BTM was measured by ¹H NMR. PMD_BTM initiated the graft polymerization of styrene via a controlled radical mechanism, and the molecular weight of the PMD‐g‐polystyrene increased with the polymerization time. © 2001 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 39: 604–612, 2001     

Effects of Additives on the Laser-Initiated Polymerization of 1,6-Hexanediol Diacrylate

Polymerization exotherms of 1,6-hexanediol diacrylate (HDDA) were generated by a pulsed laser source and recorded on a modified differential scanning calorimeter. Several aromatic carbonyl-based photoinitiators were compared with respect to maximum rate and extent of polymerization in the absence and presence of oxygen. α-Cleavage photoinitiators were more efficient than the hydrogen-abstracting benzophenone. The addition of an amine to a photocleavable initiator improved the polymerization of HDDA under an inert atmosphere, whereas triarylphosphines under similar conditions were effective in reducing the air inhibition. This synergistic effect depends on the type and structure of the additive and the photoinitiator.

The use of benzophenone in combination with an α-cleavage photoinitiator showed no significant effect upon polymerization, while extra thermal energy imposed upon the system slightly improved the polymerization.     

大分子量二苯甲酮光引发剂的合成及动力学研究

以4-羟基二苯甲酮(HBP)、甲苯-2,4-二异氰酸酯(TDI)、4,4′-二羟基二苯甲酮(DHBP)为原料,通过两步反应,合成了一种大分子量二苯甲酮光引发剂:HBP-TDI-DHBP-TDI-HBP(HTDTH).通过实时红外研究了HTDTH的光聚合动力学.结果表明,HTDTH是一种有效的光引发剂.采用HTDTH/胺光引发体系引发二缩三丙二醇二丙烯酸酯(TPGDA)聚合时,随着胺和引发剂浓度的增大,反应速率(R_p)和单体最终转化率(P)同时增大.     

A novel photoinimer for the polymerization of acrylates and methacrylates

A new class of multifunctional photoinitiating system based on 3‐(acryloyloxy)‐2‐hydroxypropyl methacrylate (AHM), N,N,N′‐trimethylethylenediamine (TMED) and 3‐benzoylbenzoyl chloride present in the same molecule has been synthesized and characterized by ¹H and ¹³C NMR spectroscopy. This self‐contained photoinitiator‐monomer (photoinimer) was used to efficiently initiate polymerization of acrylates and methacrylates. Both rate of polymerization and percentage conversion increased with increase in initiator concentration. An increment in rate of polymerization observed when the benzophenone moiety was directly attached to the parent molecule (obtained from the Michael addition reaction between AHM and TMED) appears to be due to proximity effect: chemical bonding provides a high local concentration of both components of the photo‐activated system involving benzophenone and a hydrogen atom source from an electron‐rich tertiary amine. For the three initiating systems investigated, lowering the initiator concentration plays an important role; i.e., the polymerization rate for the chemically linked system was about two times faster than the mixed initiating system. © 2005 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 43: 5661–5670, 2005     

含氧光敏引发体系的研究——Ⅵ.二苯酮/三乙胺体系引发光聚合过程中的再次引发效应

过去,作者曾发表了多种光敏引发体系引发烯类单体光聚合的工作,在研究2,2-二甲氧基苯乙酮在氧存在下引发甲基丙烯酸甲酯光聚合时,结合在聚合物链端的引发剂碎片具有光化学活性,在光聚合反应中产生高分子自由基,发生再次聚合,出现高分子量     

含氧光敏引发体系的研究——Ⅵ.二苯酮/三乙胺体系引发光聚合过程中的再次引发效应

A sequential photoinitiation. phenomenon was found in the benzophenone/triethylamine/ MMA radical photopolymerization system, which leads to increase of molecular weight, amine content of polymer formed with progressive irradiation time. The results, obtained demonstrate that the sequential photoinitiation originates from the photoreaction of active amine groups at the polymer chains with excited benzophenones producing a polymer radicals, which induce sequential polymerization. The effects of benzophenone and amine concentrations,oxygen co-ntent and chain requlator were studied. Reaction mechanism was also discussed.     

Photopolymerization induced by a benzophenone derivative photoinitiator

A benzophenone derivative photoinitiator, HBP-TDI-HQ-TDI-HBP （HTCTH）, was synthesized based on 4-hydroxy benzophenone （HBP）, toluene-2,4-diisocyanate （TDI） and hydroquinone （HQ）. HTCTH was a more effective photoinitiator which had longer wavelength absorption in the UV-vis absorption spectra than the low molecular counterpart benzophenone （BP）. It showed that both rate of polymerization （Rp） and final conversion （P） increased with increase of amine and HTCTH concentration in photopolymerization.     

Photoinitiating behavior of benzophenone derivatives covalently bonded tertiary amine group for UV‐curing acrylate systems

A series of benzophenone derivatives (N‐BPs) containing tertiary amine group used as hydrogen abstraction‐type (type II) photoinitiators were synthesized through the addition reaction of secondary amines with 4‐(2,3‐epoxypropyloxy) benzophenone. The chemical structures were characterized with ¹H NMR, FTIR spectroscopy, and UV spectrum measurements. The N‐BPs showed the higher absorption in 300–400 nm than benzophenone (BP). The photoinitiating activity was examined based on the photopolymerization of 1,6‐hexanediol diacrylate using photo‐DSC method. The results showed that the photoinitiating efficiency was negatively affected by the molecular structure of alkyl group connected to the tertiary amine with the order of isopropyl (N‐BPI) < methyl (N‐BPM) < ethyl (N‐BPE) < propyl (N‐BPP). Moreover, the diethanolamine‐modified benzophenone derivative (N‐BPOH) had the highest‐photoinitiating efficiency for free radical polymerization systems among the N‐BPs. Copyright © 2011 John Wiley & Sons, Ltd.     

Non-extractable photoinitiators based on thiol-functionalized benzophenones and thioxanthones

Non-extractable photoinitiators could be advantageous for use in biological, electronic, and food packaging applications. Therefore, thioxanthone and benzophenone derivatives were synthesized from 1,6-hexane dithiol and chlorinated benzophenone or thioxanthone. The efficiency of thiol-functionalized photoinitiators in combination with amine co-initiators was compared to benzophenone and isopropylthioxanthone with amine co-initiators, and the cleavage of photoinitiator 2,2-dimethoxy-1,2-diphenylethan-1-one in acrylic resins. The reaction kinetics were analyzed using photo-differential scanning calorimetry and real-time FTIR. Coating physical properties were evaluated by pendulum and pencil hardness, steel-wool scratch and mandrel bend tests. The non-extractable photoinitiators had higher absorbance than their benzophenone or isopropylthioxanthone counterparts due to the sulfide substitution on the phenyl ring, and the free thiol groups reacted with the acrylate by either an amine catalyzed Michael addition or a free-radical chain process. The combination of thiol-functionalized photoinitiators with secondary amines provides an efficient photoinitiator system that is locked into the photopolymerized network and cannot be extracted with typical solvents.