共查询到19条相似文献,搜索用时 156 毫秒
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用三氟化硼引发体系制备聚丁二醇 总被引:1,自引:0,他引:1
分子量在3000以下特别是1000或2000的聚丁二醇(PTMG)是制备嵌段聚醚聚氨酯及嵌段聚醚聚醋弹性体的重要软段原料。用三氟化硼(BF_3)体系引发制备PTMG巳有报道,但尚难在工业上采用,主要是引发效率低。前已报道,BF_3-环氧氯丙烷(ECH)体系的引发效率比BF_3-环氧乙烷(EO)体系高2.5~6倍,比BF_3-环氧丙烷(PO)体系高2~3倍。本文用BF_3-ECH为引发体系,并用水为分子量调节剂制备分子量1000或2000的PTMG,测 相似文献
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杂多酯引发四氢呋喃开环聚合反应Ⅶ.以氧杂环丁烷为促进剂 总被引:3,自引:0,他引:3
在以低浓度杂多酸(HPA)催化四氢呋喃(THF)聚合反应中,我们曾采用环氧乙烷(EO)、环氧丙烷(PO)和环氧氯丙烷(ECH)等三元环醚为促进剂,发现它们对聚合反应都具有很好的促进效果[1~3].本文进一步研究了具有四元环醚结构的氧杂环丁烷(OX)对THF聚合的促进效果.OX用作促进剂有以下优点,由OX促进THF聚合所得聚醚的端羟基为伯羟基,作为生产嵌段聚醚氨酯或嵌段聚酯弹性体的原料具有与四氢呋喃均聚醚相似的高反应活性;与EO相比,后者虽然促进THF聚合所得聚醚的端羟基也为伯羟基,但其沸点过低,不利于操作和贮存.1 原料及… 相似文献
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本文从聚合机理和反应动力学两方面综述了近年来六甲基环三硅氧烷(D3)的阴离子开环聚合研究进展。Frye等人提出在非极性的碳氢溶剂中会形成引发剂的的三种加成物质,在不加入促进剂的情况下不会进行D3的开环聚合,这一开环聚合机理成为随后D3阴离子开环聚合机理研究的基础,研究者采用MALDI-TOF研究聚合机理得到的结论证实了这一机理的正确性,促进剂、溶剂、引发剂的类型和聚合步骤会改变活性链末端的缔合和解缔合的平衡能力,对D3开环过程中的反咬和再分布副反应有显著影响。D3开环聚合增长速率对单体浓度为一级,不同的促进剂和引发剂会显著改变活性链末端的缔合能力,从而显著影响聚合动力学。 相似文献
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以1,4-丁二醇(BD)为引发剂, 辛酸亚锡为催化剂, 引发对二氧环己酮(PDO)开环聚合, 得到双端羟基型聚对二氧环己酮预聚物, 再以六亚甲基二异氰酸酯(HDI)为扩链剂制备高分子量的聚对二氧环己酮. 采用核磁共振谱对预聚物和扩链产物的结构进行了确认, 并详细考察了各种因素对扩链反应的影响. 研究结果表明, 加入适量的HDI, 于150 ℃反应60 min, 扩链效率在预聚物基础上可提高52倍, 而扩链产物的粘均分子量可达到25.7×104 g/mol. 相似文献
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本文研究了由BDC(N,N-二乙基二硫代氨基甲酸苄酯)作为Iniferter(引发-转移-终止剂)引发苯乙烯的光聚合反应。发现转化率和分子量均随时间逐步增大,反应生成带有起始功能端基的聚合物。从顺磁谱可见BDC在光照射下分解生成的小分子自由基[·SSCN-(C_2H_5)_2]及较活泼的苄基自由基引发苯乙烯聚合产生的大分子增长自由基。探讨了这种活性自由基聚合反应机理。 相似文献
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ABA型聚L-丙氨酸-聚乙二醇嵌段共聚物的合成及其表征 总被引:3,自引:0,他引:3
利用L-α-丙氨酸和三聚光气反应制备了N-羧基-α-丙氨酸-环内酸酐(NCA).以聚乙二醇(PEG)为原料.制备了端氨基聚乙二醇(PEG-NH2),并以此作为引发剂,引发NCA开环聚合.合成了不同组成和分子量的聚L-丙氨酸-聚乙二醇(PLAA-PEG-PLAA)嵌段共聚物.利用IR、1H NMR、DSC、WAXD、CD等方法对共聚物结构进行了表征.结果表明,PEG-NH2引发NCA开环聚合得到的是嵌段共聚物,通过1H NMR谱得到共聚物组成及数均分子量;引入PEG的结果使聚L-丙氨酸的亲水性有所改善;CD测诚结果表明共聚物在水溶液中主链主要以α-螺旋构象存在. 相似文献
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丙烯酰胺在聚乙二醇水溶液中聚合产品的微观形态 总被引:2,自引:0,他引:2
采用偶氮类水溶性引发剂2,2′-偶氮二异丙基咪唑啉二盐酸盐(VA044)引发丙烯酰胺(AM)在聚乙二醇(PEG)水溶液中的双水相聚合;研究了引发剂、单体、聚乙二醇浓度及温度对最终产品中聚丙烯酰胺(PAM)液滴形态、尺寸的影响.随着引发剂浓度的增加,液滴由球状变为细长条状;随着温度的上升,球状液滴逐渐趋于条状,然后又重新趋于球状;在初始单体浓度较低时,PAM液滴滴径分布较窄,当其浓度增加后,滴径呈多峰分布;随着PEG浓度的增加,聚合物液滴趋于球状。 相似文献
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活性自由基聚合反应合成苯乙烯与丙烯酸酯嵌段共聚物及相关共聚物 总被引:9,自引:0,他引:9
用Cu(phen) 2 Br/1 PEBr催化引发体系合成了分子量为 50 0 0左右的溴端基聚苯乙烯 (PS Br) .以后者为大分子引发剂 ,在Cu( phen) 2 Br存在下引发甲基丙烯酸甲酯 (MMA)或丙烯酸丁酯 (BA)聚合 ,合成了二嵌段共聚物PS b PMMA和PS b PBA ,并通过GPC、IR、1H NMR及DSC等进行了表征 .实验发现 ,丙烯酸甲酯(MA)在Phen/CuCl/CCl4 催化引发下发生爆聚反应 ,仅当和异丁基乙烯基醚 (IBVE)才发生可控的自由基共聚合反应 .当MA和IBVE的投料摩尔比为 1∶1时 ,所得共聚物中两种单体链节的组成比为 1∶1 7左右 . 相似文献
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Hans R. Kricheldorf Andreas Mahler 《Journal of polymer science. Part A, Polymer chemistry》1996,34(12):2399-2406
Dimeric cyclotetramethylene carbonate (TeMC)2 was polymerized in bulk at 185°C. Either nBuSnCl3 or Sn(II)2-ethylhexanoate (SnOct2) were used as catalysts. SnOct2 proved to be somewhat less reactive, but high yields (up to 93%) and high viscosities (νinh up to 0.85 dL/g) were obtained with both catalysts. Viscosity-average molecular weights (Mv) in the range of 50–75 × 103 were determined. The isolated crystalline poly(tetramethylene carbonate)s were characterized by IR, 1H- and 13C-NMR spectra, DSC measurements and WAXD powder pattern. CH2OH and octoate end groups were detected by means of 1H-NMR spectroscopy when SnOct2 was used as initiator, but ether groups were absent. DSC measurements revealed that poly(tetramethylene carbonate) is a slowly crystallizing polymer with a degree of crystallinity below 50% and a melting temperature in the range of 64–69°C depending on the molecular weight. Thermogravimetric analyses proved that polyTeMC decomposes completely between 240 and 340°C without leaving a residue. CO2 and tetrahydrofuran were the main degradation products. © 1996 John Wiley & Sons, Inc. 相似文献
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Novel Y-shaped block copolymers of poly(ethylene glycol) and poly(N-isopropylacrylamide),PEG-b-(PNIPAM)_2,were successfully synthesized through atom transfer radical polymerization(ATRP).A difunctional macroinitiator was prepared by esterification of 2,2-dichloroacetyl chloride with poly(ethylene glycol) monomethyl ether(PEG).The copolymers were obtained via the ATRP of N-isopropylacrylamide(NIPAM) at 30℃with CuCl/Me_6TREN as a catalyst system and DMF/H_2O(v/v = 3:1) mixture as solvent.The resulting copo... 相似文献
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以辛酸亚锡为催化剂,季戊四醇(PTOL)为引发剂,引发对二氧环己酮(PDO)单体开环聚合,合成了以PTOL为核的四臂聚对二氧环己酮(4s-PPDO).通过直接将4s-PPDO预聚物和聚乙二醇(PEG)于熔点以上、惰性气体保护下与偶联剂甲苯二异氰酸酯(TDI)交联共聚得到聚对二氧环己酮/聚乙二醇(PPDO-b-PEG)两亲性共网络聚合物(PPDO-PEG APCNs).研究了两亲性聚合物共网络结构、配比组成、溶剂种类等对聚合物溶胀率的影响,结果表明APCNs在不同类型的溶剂中表现出不同的溶胀行为,可以通过调节偶联剂的用量及PPDO/PEG的投料比来满足不同的实际需求.通过示差扫描量热分析(DSC)详细研究APCNs的结晶性能,证实交联反应降低APCNs的结晶度和结晶尺寸. 相似文献
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采用CuBr/2,2'-联二吡啶催化体系, α-溴代丙酸乙酯为引发剂, 甲醇为溶剂, 通过原子转移自由基聚合(ATRP)合成了分子量分布窄的聚(N,N-二乙基丙烯酰胺)(PDEAM). 用FT-IR、1H-NMR和凝胶渗透色谱(GPC)对其结构进行了表征; 利用透光率的测定研究了PDEAM水溶液浓度、盐以及表面活性剂对PDEAM水溶液低临界溶解温度(LCST)的影响. 结果表明: 随着PDEAM水溶液浓度的增大, LCST逐渐降低; NaCl、CH3COONa、KCl、Na2SO4及MgSO4使PDEAM水溶液的LCST降低, 降低程度与盐的种类和阴离子价数有关; 十二烷基磺酸钠(SDS)则使PDEAM水溶液的LCST升高. 相似文献
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工业中大量生产的端羟基聚醚 ,由于羟基的反应活性不够 ,不能直接用于增韧胺类固化的环氧树脂 .Bu2 SnO Bu3PO4 缩合物能催化羟基对环氧基的加成反应 .本文研究在Bu2 SnO Bu3PO4 缩合物Sn P6 70 0的存在下以端羟基聚四氢呋喃 (PTMG)增韧芳香胺 4,4′ 二氨基二苯砜 (DDS)固化的环氧树脂 .PTMG首先与环氧树脂反应生成嵌段共聚物 ,在固化时发生微相分离 .分散相的尺寸在有利于增韧的范围内 .PTMG在分子量与浓度适当时 ,能使树脂的断裂韧性大大提高 ;抗弯强度也有显著提高 ,而Tg 和模量略有降低 . 相似文献
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A new type of nanocapsules with an oil core, coated by poly(ethylene glycol) (PEG) was designed. The loading efficiency and the biocompatibility of the polymeric nanocapsules were evaluated when it was used as a carrier for hydrophobic agent paclitaxel. The nanocapsules were synthesized through miniemulsion polymerization of butylcyanoacrylate (BCA) with PEG as initiator. The particle size and zeta potential of nanocapsules were influenced by the PEG content in the polymerization system. Fourier transform infrared (FTIR) spectra and 1H NMR demonstrated the chemical coupling between PEG and poly(butylcyanoacrylate) (PBCA). Thermal characteristics of the copolymer were investigated by differential scanning calorimetry (DSC). The encapsulation efficiency increased concurrently with the increase of the PEG content in the system. The hemolytic assay and the cytotoxicity measurement showed that the PEG coating could significantly reduce the hemolytic potential and cytotoxicity of the nanocapsules. The results showed that the PEG-PBCA nanocapsules could be an effective carrier for hydrophobic agents. 相似文献
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Atom transfer radical polymerization (ATRP) of MMA was conducted successfully at ambient temperature (25 °C) using 2-bromomethyl-4,5-diphenyloxazole as initiator, CuBr/2,2′-bipyridine (BPY) as catalyst, and 1,4-Dioxane as solvent. Factors such as the reaction temperature, mole ratio of monomer and catalyst to initiator, solvent and so on, which can affect the ATRP system, were discussed in the paper. Chain extension was conducted using polymer as the macro-initiator which was characterized via 1H NMR. The optical property of initiator was well preserved in the obtained PMMA, and the end-functionalized PMMA exhibited obvious fluorescent emission at 367 nm. 相似文献