机构地区:[1]Changchun Institute of Applied Chemistry,Chinese Academy of Sciences
出 处:《Chinese Journal of Polymer Science》2010年第2期157-164,共8页高分子科学(英文版)
基 金:supported by the Administration of Science and Technology of Jilin Province,China (No.200505254)
摘 要:Neodymium chloride isopropanol complex (NdCl3.3'prOH) activated by modified methylaluminoxane (MMAO) was examined in isoprene polymerization in hexane, with regards to Nd compounds, aluminum (Al) compounds, [Al]/[Nd] ratio, polymerization temperature and time. NdCl3'3iprOH exhibited high activity producing polymers feasting high cis-l,4 stereospecificity (〉 96%), very high molecular weight (Mn 〉 1.0 × 10^6) and fairly narrow molecular weight distribution (MWD, Mw/Mn 〈 2.0) simultaneously. In comparison, neodymium isopropoxide also showed high activity providing polymers with narrow MWD (Mw/Mn = 2.07), but somewhat low cis-1,4 content (ca. 92%), while neodymium chloride had no activity under present polymerization conditions. The Al compounds affected the polymer yield in the order of Al(i-Bu)3 〉 MMAO 〉 Al(i-Bu)2H. MMAO as cocatalyst afforded polyisoprene with high Mn over 1.0 × 10^6, whereas as stronger chain transfer agent than MMAO, AI(i-Bu)3 and AI(i-Bu)EH yielded polymers with low Mn (1.0 × 10^5-8.0 × 10^5). NdCl3·3'PrOH/MMAO catalyst showed a fairly good catalytic activity even at relatively low [Al]/[Nd] ratio of 30, and the produced polymer remained high cis-1,4 content of 95.8% along with high Mn over 1.0× 10^6 even at elevated temperatures up to 70℃. The polymerization rate is of the first order with respect to the concentration of isoprene. The mechanism of active species formation was discussed preliminarily.Neodymium chloride isopropanol complex (NdCl3.3'prOH) activated by modified methylaluminoxane (MMAO) was examined in isoprene polymerization in hexane, with regards to Nd compounds, aluminum (Al) compounds, [Al]/[Nd] ratio, polymerization temperature and time. NdCl3'3iprOH exhibited high activity producing polymers feasting high cis-l,4 stereospecificity (〉 96%), very high molecular weight (Mn 〉 1.0 × 10^6) and fairly narrow molecular weight distribution (MWD, Mw/Mn 〈 2.0) simultaneously. In comparison, neodymium isopropoxide also showed high activity providing polymers with narrow MWD (Mw/Mn = 2.07), but somewhat low cis-1,4 content (ca. 92%), while neodymium chloride had no activity under present polymerization conditions. The Al compounds affected the polymer yield in the order of Al(i-Bu)3 〉 MMAO 〉 Al(i-Bu)2H. MMAO as cocatalyst afforded polyisoprene with high Mn over 1.0 × 10^6, whereas as stronger chain transfer agent than MMAO, AI(i-Bu)3 and AI(i-Bu)EH yielded polymers with low Mn (1.0 × 10^5-8.0 × 10^5). NdCl3·3'PrOH/MMAO catalyst showed a fairly good catalytic activity even at relatively low [Al]/[Nd] ratio of 30, and the produced polymer remained high cis-1,4 content of 95.8% along with high Mn over 1.0× 10^6 even at elevated temperatures up to 70℃. The polymerization rate is of the first order with respect to the concentration of isoprene. The mechanism of active species formation was discussed preliminarily.
关 键 词:ISOPRENE NEODYMIUM Molecular weight distribution Cis-1 4 stereospecificity Ziegler-Natta polymerization.
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