SOCl2／SnCl4—DMSO／n—Bu4NCl引发体系苯乙烯活性阳离子聚合反应的研究

研究表明，ＳＯＣｌ２／ＳｎＣｌ４引发体系的苯乙烯聚合反应很快，但所得聚合产物的分子量分布宽（Ｍｗ／Ｍｎ＝４．３７），且其ＧＰＣ曲线呈多重峰；单独加入季铵盐（ｎ－Ｂｕ４ＮＣｌ）或二甲基亚砜（ＤＭＳＯ）可使聚合产物分子量分布明显变窄，并随浓度的增加而加强，但程度有限，不显示活性聚合特征；ＤＭＳＯ和ｎ－Ｂｕ４ＮＣｌ同时加入，表现出协同效应，不仅能保持较高的聚合反应活性，而且产物分子量分布很窄（Ｍｗ／Ｍｎ＝１．２７），分子量随单体转化率增加而增加，且线性关系良好，聚合物链数只与引发剂初始浓度相关，显示活性聚合特征。     

α－甲基丙烯酸烯丙酯的合成及其自由基、阴离子聚合的研究

合成了α－甲基丙烯酸烯丙酯（ＡＭＡ），并对其自由基、阴离子聚合进行了探讨。结果发现，该单体难以进行选择性自由基聚合，但可用作多种单体自由基聚合的交联剂。用１，１′－二苯基己基锂在ＴＨＦ中引发ＡＭＡ，可顺利地进行α位双键的选择性阴离子聚合，分子量实测值与计算值基本一致。在较低温度下（≤－６０℃），可得窄分布ＰＡＭＡ（Ｍｗ／Ｍｎ＝１．１２～１．１５）。随聚合温度升高，间同和无规聚合物含量分别呈下降和上升趋势。ＧＰＣ、１ＨＮＭＲ及ＦＴＩＲ鉴定表明，用阴离子聚合法可得到溶于多种溶剂、每个重复单元上均定量带有烯丙基双键的窄分布官能性ＰＡＭＡ。     

α-溴代丁酸乙酯/CuBr/联吡啶体系引发的活性自由基聚合反应

用α 溴代丁酸乙酯为引发剂，ＣｕＢｒ和２，２’ 联吡啶（ＢＰＹ）为催化剂，研究了ＭＭＡ、Ｓｔ、ＭＡ在８０℃下，ＭＭＡ在室温下（２０℃）的自由基活性聚合机理．通过转化率与数均分子量，理论分子量和实测分子量的关系，以及分子量分布，证明这些体系均具有活性聚合的特征．计算了三种聚合体系的动力学数据．讨论了温度、单体结构对聚合体系自由基活性特征的影响．     

原子转移自由基聚合合成(甲基)丙烯酸酯类模型聚合物及其动力学研究

本文采用一种新颖的活性自由基聚合—原子转移自由基聚合（ＡＴＲＰ）的方法，以１－溴代苯乙烷作为引发剂，过渡金属卤化物与配位剂络合物（ＣｕＢｒ／２，２’－联吡啶）为催化体系，环己酮为溶剂，进行了甲基丙烯酸正丁酯（ＢＭＡ）和丙烯酸正丁酯（ＢＡ）的活性聚合。得到具有指定分子量和窄分子量分布（１．２＜Ｍｗ／Ｍｎ＜１．５）的模型聚合物。计算并讨论了两聚合体系的ＡＴＲＰ的动力学数据     

甲基丙烯酸丁酯和苯乙烯的原子转移自由基共聚

研究了甲基丙烯酸丁酯（ＢＭＡ）和苯乙烯（Ｓ）这两种不同极性单体的原子转移自由基嵌段共聚和无规共聚,得到了实测分子量与理论分子量相近,分子量分布较窄的嵌段共聚物和无规共聚物．聚合过程中分子量和单体转化率成比例增加,多分散性指数变化不大．用１Ｈ ＮＭＲ法测定共聚组成,Ｋｅｌｅｎ Ｔｕｄｏｓ法计算竞聚率．得到ｒＳｔ＝０９１,ｒＢＭＡ＝０３２．     

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…     

基团转移活性聚合物的接枝共聚

以阴离子聚合法合成的窄分布聚苯乙烯（ＮＤＰＳ）进行氯甲基化后,再与由基团转移聚合法合成的活性聚甲基丙烯酸甲酯（ＰＭＭＡ）进行大分子反应,得到了主链为聚苯乙烯,支链为聚甲基丙烯酸甲酯的接枝共聚物（ＰＳｔｇＰＭＭＡ）;探讨了聚合物的合成条件,ＧＰＣ测试结果表明,得到的接枝共聚物的分子量和设计分子量相近且主链和支链分子量均可较好的控制．利用扫描电镜、核磁和红外技术对ＰＳｔｇＰＭＭＡ的形态、结构进行了表征．     

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…     

CuBr/bpy催化苯乙烯和甲基丙烯酸甲酯的"活性"自由基共聚合

研究了ＣｕＢｒ／ｂｐｙ催化、Ｅｉｂ－Ｂｒ引发Ｓｔ／ＭＭＡ自由基共聚反应动力学。发现在不同的起始单体组成比条件下,两种单体以基本相同的速率进行聚合,并得到恒比组成的共聚物。分子量的可控性和窄分子量分布证明这是一种“活性”聚合过程。建立了用红外光谱表征Ｓｔ／ＭＭＡ共聚物序列结构的方法。     

异丙醇铝改进的原子转移自由基聚合催化体系

以α 溴代异丁酸乙酯［２ （ＥｉＢ） Ｂｒ］ 为引发剂,溴化亚铜（ＣｕＢｒ）／ 联二吡啶（ｂｐｙ）／ 异丙醇铝［Ａｌ（ＯｉＰｒ）３］ 为复合催化剂,在环己酮溶液中进行了甲基丙烯酸正丁酯（ＢＭＡ） 的原子转移自由基聚合（ＡＴＲＰ） ．研究了异丙醇铝对聚合速率及产物分子量分布的影响．异丙醇铝可与引发剂和聚合物中的羰基配位,使相邻的Ｃ—Ｂｒ 键活化,ＡＴＲＰ 反应可以在较低温度下进行．适量溴化铜的加入,可调节ＡＴＲＰ 活性,可得到分子量可控且分子量分布窄的ＰＢＭＡ（ ＭＷＤ＝ １－３ ～１－５） ．     

Preparation and characterization of optically active polystyrene via a chiral nitroxide‐mediated polymerization

2,2,6,6‐Tetramethyl‐4‐[d‐(+)‐10‐camphorsulfonyl]‐1‐piperidinyloxy was synthesized and used as a chiral nitroxide for the bulk polymerizations of styrene initiated with benzoyl peroxide (BPO), tetraethylthiuram disulfide (TETD), and thermal initiation. The results showed that the polymerizations proceeded in a controlled/living way; that is, the kinetics presented approximately first‐order plots, and the number‐average molecular weights of the polymers with narrow molecular weight distributions (weight‐average molecular weight/number‐average molecular weight) increased with the monomer conversion linearly. The molecular weight distributions in the case of thermal initiation were narrower than those in the case of BPO and TETD, whereas the polymerization rate with BPO or TETD as an initiator was obviously faster than that with thermal initiation. In addition, successful chain‐extension reactions were carried out, and the structures of the obtained polymers were characterized by gel permeation chromatography and ¹H NMR. The specific rotations of the polymers were also measured by polarimetric analysis. © 2006 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 44: 1522–1528, 2006     

Synthesis and characterization of perfluoro[1-(2-fluorosulfonyl)ethoxy]ethyl end-capped styrene oligomers

Styrene oligomers with perfluoro[1-(2-fluorosulfonyl)ethoxy]ethyl end-groups have been synthesized with moderate to high yields (52-97%) via radical oligomerization by using perfluoro[2-(2-fluorosulfonyl)ethoxy]propyonyl peroxide (PPP) at various reactant ratios of styrene over PPP (80, 160, 240, 300, 360 and 420) and different temperatures (33, 37 and 42 °C), and characterized by FTIR, ¹H NMR and ¹⁹F NMR. The molecular weight of the oligomers measured by gel permeation chromatography (GPC) is dependent on the reactant ratio and reaction temperature. The polydispersity of the oligomers varies from 1.99 to 3.30. The oligomer obtained at the reactant ratio of 300 has the maximum yield (97%) and much broader polydispersity (3.30). The contact angles of water, θ_H2O, on the oligomer films are much bigger than that of polystyrene (PS). The glass transition temperature of the oligomers, T_g, increases with the increase of molecular weight and is lower than that of the parent polymer.     

High-pressure synthesis of cyclic phenylacetylene oligomer

New conjugated oligomers were prepared by reacting phenylacetylene under high pressure of 0.11 to 0.92 GPa at 100–200°C for 0–5 h. The number-average molecular weight M?_n, the weight-average molecular weight M?_w, and the oligomer yield increased with pressure, tem-perature, and time. The average molecular weight of the oligomer showed the maximum value (M?_n: 830, M?_w: 2400) under 0.92 GPa, the maximum pressure, where phenylacetylene was oligomerized at a constant temperature. The structure of the oligomer was investigated from ESR, infrared, UV–VIS, field desorption mass (FDMS) spectra, and ¹³C NMR spec-trum. Analysis of the FDMS spectrum revealed that the molecular weight of the oligomer was multiple of the monomer. ¹³C NMR spectrum of the oligomer showed the absence of sp-carbon (? C?). We found that the oligomer had a cyclic structure. The cyclic oligomers of pentamer or more were new compounds. © 1995 John Wiley & Sons, Inc.     

Novel biodegradable copolyesters containing blocks of poly(3-hydroxyoctanoate) and poly(epsilon-caprolactone): synthesis and characterization

Novel biodegradable polyester block copolymers have been synthesized by using well-defined poly(3-hydroxyoctanoate) (PHO) oligomers having a hydroxyl end group and an ester end group with M(n) values of 800, 2,500, 5,300, 8,000, or 20,000 as an elastomeric soft segment and poly(epsilon-caprolactone) as a more crystalline segment. These PHO oligomers prepared by methanolysis were subjected to block copolymerization with epsilon-caprolactone. The chemical structure of the copolymers was confirmed by (1)H NMR and (13)C NMR spectroscopy. All the copolyesters are semi-crystalline and two T(g) were observed by differential scanning calorimetry when the molecular weight of the PHO block is about 20,000.     

反式N-3-炔丁烯基咔唑的合成及其齐聚行为

在65 ℃、氮气保护下, 往咔唑钠的四氢呋喃溶液中缓慢滴加1,4-二氯-2-丁炔. 反应9 h后, 在苯和石油醚混合溶剂中重结晶, 分离得到反式N-3-炔丁烯基咔唑. 在加热, BPO, BF₃, FeCl₃, P₂O₅, 紫外或可见光的引发作用下, 反式N-3-炔丁烯基咔唑发生齐聚反应. 通过元素分析, IR, ¹H NMR, MS, UV等方法对反应产物进行分析表征. IR和¹H NMR图谱显示单体聚合后炔基及其相连氢原子的特征吸收峰(ν: 3278, 2099 cm^－1; : 2.8～3.0)消失, VPO法测得齐聚物分子量在8.3×10²至1.9×10³之间(聚合度4～9).     

Polymerization of Diphenylbutadiyne Derivatives in Solution by Free Radical Initiator

In order to study free radical reactions of aromatic diacetylenes, the reaction of diphenyldiacetylene with di‐t‐butylperoxide was carried out in 1,2‐dichlorobenzene. The presence of t‐butoxy radicals considerably accelerated product formation, and oligomers with number average molecular weights of 700–2000 were obtained. There is no fragment of the t‐butyl group in the oligomers obtained according with the ¹H‐NMR spectrum. Furthermore, it is impossible that the t‐butoxy radicals would have initiated the oligomerization. The intense ESR spectra observed during the reaction at 130°C are due to the diradicals of oligomeric diphenylbutadiyne. It was concluded that the oligomerization proceeds via coupling of diradicals, and not the successive addition of radicals to monomers. The purified product oligomers did not contain carbonyl groups indicating there was no oxidation, and their ESR spectra have revealed that these oligomers contained a substantial amount of living free radicals stable in air at room temperature. The reason why high polymers are not obtained is the steric effect of oligomeric diradicals for coupling, as well as probable cyclization.     

End-functionalised 1-vinyl-2-pyrrolidinone oligomers bearing lactate functions at one end

1-Vinyl-2-pyrrolidinone (VP) oligomers bearing a lactate group at one end (PVP-L) were obtained by chain-transfer controlled radical polymerisation carried out in the presence of ethyl L-lactate as chain-transfer agent (CTA). Their number-average molecular weights were in the range 1500-4000 with molecular weight distributions ranging from 1.4 to 1.8. The chain transfer constant, C(T), of the ethyl L-lactate/VP system was determined by monitoring the variation of PVP-L number-average molecular weight on conversion. The C(T) value so obtained was 1.03 x 10(-2), which is by about one order of magnitude higher than the C(T) value previously determined for a seemingly similar system, namely methyl isobutyrate/1-vinyl-2-pyrrolidinone (1.64 x 10(-3)). The resultant PVP-L oligomers were thoroughly characterised by means of (1)H and (13)C NMR, in order to ascertain the regular presence of the lactate functions at one of their chain terminals. NMR characterisations gave results in full agreement with the proposed structure. Moreover, the molecular weight values determined by NMR very closely agreed with those obtained by SEC. Preliminary biological evaluations of the PVP-L oligomers showed a complete lack of toxicity.     

Cationic polymerization of 1,3-dioxepane in the presence of 2,2-bis(hydroxymethyl)butanol

Cationic polymerization of 1,3-dioxepane (DOP) initiated by triflic acid was carried out in the presence of 2,2-bis(hydroxymethyl)butanol (BHMB). The structure and molecular weight of the products were characterized by GPC and NMR spectra. The results showed that molecular weight of the polyacetal obtained could be controlled by the initial mole ratio of DOP/BHMB. GPC showed that as the mole ratio of BHMB/DOP increased, the content of cyclic oligomers also increased. Proton, ¹³C and 2D HMQC-fg NMR demonstrated that no hydroxymethyl group of BHMB appeared as an end group. It was also illustrated by proton NMR that some BHMB units existed in cyclic oligomers. The mechanism of formation of cyclic oligomers was discussed. © 1998 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 36: 2899–2903, 1998     

1H and 13C NMR of PMMA macromonomers and oligomers - end groups and tacticity

¹H NMR and ¹³C NMR have been used to study the end groups and tacticity in PMMA macromonomers and oligomers. These macromonomers are terminated almost exclusively in one vinylidene group per chain. The end group signals from the macromonomers are identified in both the ¹³C and ¹H NMR spectra. The spectra of the purified oligomers (n = 1-4) were used to aid in assignment. The macromonomers are predominantly syndiotactic, and the tacticity measured is consistent with Bernoullian statistics. The tetramer is a mixture of r and m isomers in a 4:1 ratio. It is shown that T₁ experiments can provide a useful method of distinguishing resonances due to low molecular weight impurities from those due to stereochemical or isomeric effects in macromonomers. The absence of internal double bonds was confirmed by isomerizing the vinylidene group of several oligomers and of the macromonomer, and verifying the absence of the isomerized signals in the NMR spectra of the original materials.     

Synthesis and properties of novel Schiff base oligomers based on oligo‐4‐hydroxybenzaldehyde

Condensation of oligo‐4‐hydroxybenzaldehyde with aniline, 2‐chloroaniline, 2‐aminophenol, 2‐aminotoluene, 4‐aminotoluene, and 4‐nitroaniline gave the corresponding Schiff base oligomers (OFAP, OKAP, OHAP, OOAP, OTAP, and ONAP, respectively). The products were characterized by ¹H NMR, Fourier transform infrared, ultraviolet–visible, and elemental analyses. The number‐average molecular weight, mass‐average molecular weight, and polydispersity index (PDI) values of the Schiff base oligomers were determined. Thermogravimetric analysis was used to compare the thermal stability of the oligomers, which showed the Schiff base oligomers to be resistant to thermooxidative decomposition. Weight loss of 5% and 50% occurred at temperatures of 122 and 475 °C; for OFAP, at 118 and 453 °C; for OKAP, at 182 and 491 °C; for OHAP, at 150 and 452 °C; for OOAP, at 132 and 401 °C; for OTAP, and at 193 and 414 °C for ONAP. © 2004 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 42: 1120–1125, 2004