无乳化剂乳液聚合制备高分子量聚乙烯醇

通过无乳化剂乳液聚合方法, 采用氧化还原引发体系制备了超高分子量的聚醋酸乙烯酯(PVAc), 继而醇解为超高分子量的聚乙烯醇(PVA). 研究了聚合温度、引发剂浓度、单体转化率对PVA的分子量和分子结构的影响. 探讨了线性高分子量PVA结构的控制方法. 结果表明, 利用无乳化剂乳液聚合可以实现在室温(14~20 ℃)制备出聚合度为9899的高分子量的PVA, 聚合过程对PVA的分子量和结构均有显著的影响. 在无乳化剂乳液聚合恒速聚合区得到的聚合物分子量较高, 分子量分布窄, 且结构比较规整, 而在加速区, PVAc的支化和交联现象显著, 最终会对PVA的线性程度产生很大影响. 因此, 可以通过聚合过程来控制PVA的分子量和链结构.     

异丁基乙烯基醚与受电子单体的可控自由基共聚合

近年来发展起来的“活性” 可控自由基聚合越来越为人们所关注 ,其原因在于采用这种方法不仅可以设计聚合物的分子量 ,得到窄分布聚合物 ,而且聚合条件不象活性离子型聚合那样严格 ,单体适用范围相对较广 .关于烯类单体的活性自由基聚合迄今主要有 :氮氧自由基调控的稳定自由基聚合 (Ｓｔａｂｌｅｆｒｅｅｒａｄｉｃａｌｐｏｌｙｍｅｒｉｚａｔｉｏｎ ,简称ＳＦＲＰ) [1] 、原子转移自由基聚合 (Ａｔｏｍｔｒａｎｓｆｅｒｒａｄｉｃａｌｐｏｌｙｍｅｒｉｚａｔｉｏｎ ,简称ＡＴＲＰ) [2 ] 以及以后发展起来的自由基可逆加成 断链链转移聚合…     

马来酸酐和苯乙烯的可逆加成-断链链转移聚合及新型嵌段共聚物的合成

马来酸酐和苯乙烯是被广为研究的一对电荷转移复合物 (Ｃｈａｒｇｅｔｒａｎｓｆｅｒｃｏｍｐｌｅｘ,简称ＣＴＣ) ,而且能通过通常的自由基聚合发生交替共聚[1] .所得的聚合物由于酸酐基团的存在 ,很易进行大分子改性得到具有某些特殊功能的高分子 .不过 ,所得共聚物的分子量难以控制且分子量分布也较宽 .近年来发展起来的“活性” 可控自由基聚合越来越为人们所关注 ,因为采用这种方法不仅可对聚合物的分子量进行设计 ,同时分子量分布也较窄 ,也不需要活性离子型聚合那样严格的聚合条件 .关于烯类单体的活性自由基聚合迄今主要有氮氧自由基…     

可控/“活性”自由基聚合制备聚乙烯及聚卤代烯烃

可控/“活性”自由基聚合(CLRP)可以用于制备分子量分布窄、分子链缺陷少的聚合物,如聚乙烯(PE)、聚氯乙烯(PVC)、聚偏氯乙烯(PVDC)和聚偏氟乙烯(PVDF),且易控制上述单体与其他单体共聚得到嵌段聚合物。本文调研了近年来可控/“活性”自由基聚合(如碘转移聚合(ITP)、氮氧稳定自由基聚合(NMP)、可逆加成断裂链转移(RAFT)聚合和金属催化的活性自由基聚合(OMRP)等)制备聚乙烯和聚卤代烯烃等方面的工作,并指出了未来的发展方向。     

5,6-苯并-2-亚甲基-1,3-二氧环庚烷的活性自由基开环聚合反应

活性 (或称可控 )自由基聚合研究是目前高分子科学的研究热点之一[1～ 8] .活性自由基聚合制备的聚合物具有分子量随转化率提高而线性增加、分子量分布窄和聚合反应为一级反应动力学等特点 .自由基开环聚合所得产物体积收缩小 ,某些含有不饱和双键的螺环单体发生双开环聚合时甚至发生体积膨胀 ;开环聚合还可在聚合物主链上引入各种官能团 ,如酯基、碳酸酯基、酮基等 [9～ 12 ] .因此 ,用活性聚合的方法对自由基开环聚合的分子量和分子量分布进行控制 ,可以制备出具有各种不同结构和性能的新聚合物 . Wei等 [13] 报道了利用稳定自由基法实现…     

用原子转移自由基聚合方法制备新型含有高分子金属配合物的无机-有机杂化材料

近年来,表面引发聚合制备聚合物刷,由于其能控制无机物表面性能,在材料科学方面有广泛的应用前景．在制备聚合物刷的一系列聚合方法中,“活性”／可控自由基聚合,尤其是原子转移自由基聚合(Atom Transfer Radical Polymerization,ATRP)得到广泛使用．它可获得分子量分布较窄的结构规整的聚合物,可将一些功能性的单体引入聚合物体系获得功能聚合物,     

低温悬浮聚合法合成超高聚合度的聚乙烯醇

以偶氮二异庚腈(ADMVN)为引发剂,通过悬浮聚合法合成聚醋酸乙烯(PVAc),PVAc经醇解制备超高聚合度(Pn)的聚乙烯醇(PVA)。实验结果显示较适宜的反应条件为:VAc 80 g,V(H2O)∶V(VAc)=1∶1,cADMVN=0.1%(以VAc质量计),悬浮剂浓度(cPVA-2288)=1.5%(以水质量计),搅拌速度(r)300 rmp,于30℃反应24 h,单体VAc的转化率超过90%,PnPVA为4.0×103~6.6×103。cPVA-2288和r是影响PVAc颗粒直径(DPVAc)及其分布的主要因素:DPVAc∝[cPVA-2288]-1.45,DPVAc∝r-1.79。     

1,4-双(α-氯代乙酰氧基)苯/氯化亚铜/二联吡啶体系作用下的原子转移聚合

通过自由基聚合制备窄分布且分子量可控聚合物是近年来倍受关注的研究课题 [1～ 6 ] .Matyjaszeski等 [1]报道了卤化亚铜 /二联吡啶 /卤代有机化合物作用下的原子转移自由基聚合 ,Kato[2 ]也报道了由氯化钌 ( ) /二联吡啶 /异丙醇铝 /卤代有机化合物作用下的丙烯酸酯自由基聚合 ,他们均分别得到了分子量分布非常窄的聚合物 .聚合过程中单体转化率随聚合时间的变化 ,聚合物分子量随聚合时间的变化关系等都与活性聚合相符或相近 ,国内学者 [3～ 6 ] 已对不同阶段的进展进行了综述 ,并且也开展了研究如由引发 -转移 -终止剂作用下进行的可控…     

乙烯气相法制醋酸乙烯钯金催化剂的研究进展

醋酸乙烯(Vinyl Acetate VAc)又称醋酸乙烯酯,是世界上用量最大的有机化工原料之一,广泛用于生产聚醋酸乙烯乳液与树脂(PVAc)、聚乙烯醇(PVA)、乙烯-醋酸乙烯共聚乳液(VAE)、氯乙烯-醋酸乙烯共聚物(EVC)、聚丙烯腈共聚单体以及缩醛树脂等衍生物,在涂料、浆料、粘合剂、维     

咪唑基二硫代甲酸苄酯存在下60Coγ射线辐照丙烯酸甲酯的快速活性自由基聚合

研究了在咪唑基二硫代甲酸苄酯存在下60Coγ射线(52.5Gy/min)辐照丙烯酸甲酯单体的自由基聚合行为.分别用GPC和1HNMR对聚合物分子量及分布和聚合物结构进行了表征.结果表明,该聚合体系呈现活性自由基聚合的特征,即聚合物分子量随单体转化率呈线性增长,分子量分布较窄,ln([M]0/[M])和聚合时间之间存在线性关系.与其它活性自由基聚合体系相比,本体系的聚合速度非常快,聚合到68min时聚合物分子量即可达到39600g/mol(转化率68%,Mw/ Mn=1.08).     

醋酸乙烯酯的可控/活性自由基聚合

概述了醋酸乙烯酯单体可控/活性自由基聚合的现状.总结了氮氧化合物存在下的聚合、原子转移自由基聚合、可逆加成断裂链转移聚合以及含碘化合物的衰减链转移聚合这四种活性自由基聚合方法用于醋酸乙烯酯聚合的研究结果,并对这四种方法作了简要的比较.     

衰减链转移(DT)聚合醋酸乙烯酯的动力学

在醋酸乙烯酯的普通自由基聚合体系中加入少量碘（质量分数为0.57%～0.86%）,用偶氮二异丁腈作引发剂合成聚醋酸乙烯酯,对其聚合反应的动力学及反应机理进行了研究。 考察了碘质量分数对聚合反应速率、聚合物分子量及分子量分布的影响,发现随着碘浓度的增加,聚合物分子量及分子量分布得到更好的控制;对聚合过程进行了核磁跟踪,考察了聚合过程中几种化合物的变化情况,特别是初级自由基与碘生成的加合物A-I（A来自引发剂分裂后产生的自由基）及单体加合物A-Mn-I（M代表单体单元）的变化情况;对聚合物结构作了详细的1H NMR分析,结果表明,聚合过程中分子量随时间延长而逐渐增大,分子量分布随单体转化率增加而变窄,聚合终期,单体转化率达到80%左右时,所得聚合物分子量分布窄（Mw/Mn≤1.41）,且含有碘端基。该方法的自由基聚合具有活性/可控的性质。     

Chain transfer to solvent in BN 2-vinylnaphthalene radical polymerization

The synthesis of vinyl alcohol copolymers is limited due to the poor radical reactivity of vinyl acetate (VAc), the traditional precursor to polyvinyl alcohol (PVA). Main group monomers such as BN 2-vinylnaphthalene (BN2VN) have attracted attention as alternatives to VAc to form side chain hydroxyls via oxidation, but outstanding questions of molecular weight control remain. Herein we report systematic investigation of solvent, temperature, and initiator concentration as factors influencing BN2VN degree of polymerization. We find increased chain transfer to toluene, hypothesized to arise from differences in radical stabilization and reactivity by aromatic and BN aromatic rings. As a result of these combined efforts, high molecular weight (M_w ~ 10⁵ g mol⁻¹) BN2VN homopolymers and BN2VN-styrene copolymers were obtained.     

Seleno‐containing poly(vinyl acetate) prepared by diselenocarbonates‐mediated controlled free radical polymerizations

The living free radical polymerizations of vinyl acetate (VAc) were successfully achieved in the presence of a novel organic selenium compound (diselenocarbonates), with 2,2′‐azobisisobutyronitrile (AIBN) as the initiator. The living characteristics of the VAc polymerization were confirmed by the linear first‐order kinetic plots and linear increase of molecular weights (M_n) of the polymers with monomer conversions, while keeping the relatively low molecular weight distributions. In addition, the end of the polymers contains selenium element which may be useful in biotechnological and biomedical applications. © 2013 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2013, 51, 3159–3165     

Cobalt(II) phenoxy-imine complexes in radical polymerization of vinyl acetate: The interplay of catalytic chain transfer and controlled/living radical polymerization

A series of cobalt(II) phenoxy-imine complexes (Co^II(FI)₂) have been synthesized to mediate the radical polymerization of vinyl acetate (VAc) and methyl acrylate (MA) to evaluate the influence of chelating atoms and configuration to the control of polymerization. The VAc polymerizations showed the properties of controlled/living radical polymerization (C/LRP) with complexes 1a and 3a , but the catalytic chain transfer (CCT) behaviors with complexes 2a , 1b , 2b , and 3b . The control of VAc polymerization mediated by complex 1a could be improved by decreasing the reaction temperature to approach the molecular weights that not only linearly increased with conversions but also matched the theoretical values and relatively narrow molecular weight distributions. The catalytic chain transfer polymerizations (CCTP) mediated by complexes 2a , 1b , 2b , and 3b were characterized by Mayo plots and the polymer chain end double bonds were observed by ¹H NMR spectra. The tendency toward C/LRP or CCTP in VAc polymerization mediated by Co^II(FI)₂ could be determined by the ligand structure. Cobalt complex coordinated by the ligand with more steric hindered and less electron-donating substituents favored the controlled/living radical polymerization. In contrast, the efficiency of CCT process could be enhanced by less steric hindered, more electron-donating ligands. The controlled/living radical polymerization of MA, however, could not be achieved by the mediation of these cobalt(II) phenoxy-imine complexes. Associated with the results of polymerization mediated by other cobalt complexes, this study implied that the configuration and spin state of cobalt complexes were more critical than the chelating atoms to the control behavior of radical polymerization. © 2019 Wiley Periodicals, Inc. J. Polym. Sci. 2020 , 58, 101–113     

致孔剂对HP（MA—VAc—MMA）载体孔结构的影响

以二乙烯苯和双丙烯酸多缩乙二醇酯为交联剂、聚醋酸乙烯酯（ＰＶＡｃ）或它与醋酸丁酯（ＢＡＣ）的混合物为致孔剂、ＢＰＯ为引发剂，用悬浮聚合随后水解的方法制得了部分水解聚（丙烯酸甲酯－醋酸乙烯酯－甲基丙烯酸甲酯）［ＨＰ（ＭＡ－ＶＡｃ－ＭＭＡ）］多孔载体，研究了ＰＶＡｃ及（ＰＶＡｃ＋ＢＡＣ）用量、分子量及混合比对ＨＰ（ＭＡ－ＶＡｃ－ＭＭＡ）孔结构的影响。结果表明，当ＰＶＡｃ的Ｍ＞２．５×１０５，ＰＶＡｃ／ＢＡＣ为２．３，用量为１０～２０％时，可制得孔隙率较高，孔径分布较窄，孔表面积较大的多孔载体。这种载体适用于微生物固定化。     

Aspects of Living Radical Polymerization Mediated by Cobalt Porphyrin Complexes

Living radical polymerization (LRP) of methyl acrylate (MA), acrylic acid (AA), and vinyl acetate (VAc) mediated by cobalt(II) porphyrin complexes ((TMP)Co^II·, (TMPS)Co^II·) are reported. The polymeric products with relatively low polydispersity and controlled number average molecular weight (M_n) based on one polymer chain per cobalt complex demonstrate the living characters of the polymerization process. The formation of block copolymers of poly(methyl acrylate)‐b‐poly(vinyl acetate) (PMA‐b‐PVAc) and poly(methyl acrylate)‐b‐poly(vinyl pyrrolidone) (PMA‐b‐PVP) demonstrate another important feature of LRP and extend the application of cobalt porphyrin mediated radical polymerization to a wider array of functionalized monomers. Kinetic studies using ¹H NMR to follow the formation of orGano‐cobalt complexes reveal that two mechanisms, reversible termination (RT) and degenerative transfer (DT), occur during the polymerization process. MA and VAc polymerization mediated by cobalt porphyrin complexes are used to illustrate the properties of these two LRP pathways and evaluate the kinetic and thermodynamic properties for several of the central reactions.     

细乳液聚合法合成高分子量聚乙烯醇的研究

采用十二烷基硫酸钠(SDS)为乳化剂、十六醇(CA)为难溶助剂,引发醋酸乙烯酯(VAc)进行细乳液聚合,以偶氮二异庚腈(ADMVN)为引发剂时,制得了平均聚合度达1.5×104~2.0×104聚醋酸乙烯酯(PVAc)和4.1×103~6.6×103的聚乙烯醇(PVA);以偶氮二脒基丙烷盐酸盐(AAPH)为引发剂时,制得了平均聚合度达1.5×104~2.0×104的PVAc和2.1×103~4.4×103的PVA.研究了引发剂浓度、温度、油水比对产物聚合度、转化率的影响,讨论了SDS∶CA摩尔比对PVAc微球粒径分布及其成粒机理的影响.当cCA∶cSDS=3∶1时得到的细乳液体系稳定性最好,以ADMVN和AAPH引发聚合时均为液滴成核为主,其中以ADMVN引发得到PVAc微球的粒度分布窄于AAPH.     

Copper(0)‐mediated radical copolymerization of vinyl acetate and acrylonitrile in DMSO at ambient temperature

In this work, Cu(0)‐mediated radical copolymerization of vinyl acetate (VAc) and acrylonitrile (AN) was explored. The polymerization was carried out at 25°C with 2,2′‐bipyridine as ligand and dimethyl sulfoxide as solvent. The copolymerization proceeded smoothly producing moderately controlled molecular weights at low VAc feed ratios. The high VAc feed ratios generated low polymerization rate and poorly controlled molecular weights. FTIR, ¹H NMR, and differential scanning calorimetry confirmed the successful obtaining of the copolymers. Based on ¹H NMR spectra, the reactivity ratios of VAc and AN were calculated to be 0.003 and 1.605, respectively. This work conveyed the first example for the Cu(0)‐mediated radical polymerization of AN and VAc, wherein VAc cannot be homopolymerized by Cu(0)‐mediated radical polymerization technique. © 2012 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2012     

Mn2(CO)10‐induced controlled/living radical copolymerization of vinyl acetate and methyl acrylate: Spontaneous formation of block copolymers consisting of gradient and homopolymer segments

The controlled/living radical polymerization of vinyl acetate (VAc) and its copolymerization with methyl acrylate (MA) were investigated in bulk or fluoroalcohols using manganese complex [Mn₂(CO)₁₀] in conjunction with an alkyl iodide (R? I) as an initiator under weak visible light. The manganese complex induced the controlled/living radical polymerization of VAc even in the fluoroalcohols without any loss of activity. The R? I/Mn₂(CO)₁₀ system was also effective for the copolymerization of MA and VAc, in which MA was consumed faster than VAc, and then the remaining VAc was continuously and quantitatively consumed after the complete consumption of MA. The ¹H and ¹³C NMR analyses revealed that the obtained products are block copolymers consisting of gradient MA/VAc segments, in which the VAc content gradually increases, and homopoly(VAc). The use of fluoroalcohols as solvents increased the copolymerization rate, controllability of the molecular weights, and copolymerizability of VAc. The saponification of the VAc units in poly(MA‐grad‐VAc)‐block‐poly(VAc) resulted in the corresponding poly(MA‐co‐γ‐lactone)‐block‐poly(vinyl alcohol) due to the intramolecular cyclization between the hydroxyl and neighboring carboxyl groups in the gradient segments. © 2009 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 47: 1343–1353, 2009