洞察泰坦杯芳烃[6 和 8]芳烃所采用的结构及其在环状酯开环聚合中的应用。

INSIGHTS into the structures adopted by titanocalix[6 and 8]arenes and their use in the ring opening polymerization of cyclic esters.

机构信息

Plastics Collaboratory, Department of Chemistry and Biochemistry, The University of Hull, Cottingham Road, Hull, HU6 7RX, UK.

Chemistry Department, Loughborough University, Loughborough, Leicestershire LE11 3TU, UK.

出版信息

Dalton Trans. 2020 Sep 1;49(34):11978-11996. doi: 10.1039/d0dt02130j.

DOI:10.1039/d0dt02130j

PMID:32812994

Abstract

Interaction of p-tert-butylcalix[6]areneH6, L1H6, with [TiCl4] afforded the complex [Ti2Cl3(MeCN)2(OH2)(L1H)][Ti2Cl3(MeCN)3(L1H)]·4.5MeCN (1·4.5MeCN), in which two pseudo-octahedral titanium centres are bound to one calix[6]arene. A similar reaction but employing THF resulted in the THF ring-opened product [Ti4Cl2(μ3-O)2(NCMe)2(L)2(O(CH2)4Cl)2]·4MeCN (2·4MeCN), where LH4 = p-tert-butylcalix[4]areneH4. Interaction of L1H6 with [TiF4] (3 equiv.) led, after work-up, to the complex [(TiF)2(μ-F)L1H]2·6.5MeCN (3·6.5MeCN). Treatment of p-tert-butylcalix[8]areneH8, L2H8, with [TiCl4] led to the isolation of the complex [(TiCl)2(TiClNCMe)2(μ3-O)2(L2)]·1.5MeCN (4·1.5MeCN). From a similar reaction, a co-crystallized complex [Ti4O2Cl4(MeCN)2(L2)][Ti3Cl6(MeCN)5(OH2)(L2H2)]·H2O·11MeCN (5·H2O 11MeCN) was isolated. Extension of the L2H8 chemistry to [TiBr4] afforded, depending on the stoichiometry, the complexes [(TiBr)2(TiBrNCMe)2(μ3-O)2(L2)]·6MeCN (6·6MeCN) or [[Ti(NCMe)2Br]2Ti(O)Br2(NCMe)]·7.5MeCN (7·7.5MeCN), whilst use of [TiF4] afforded complexes containing Ca2+ and Na+, thought to originate from drying agents, namely [Ti8CaF20(OH2)Na2(MeCN)4(L2)2]·14MeCN (8·14MeCN), [Na(MeCN)2][Ti8CaF20NaO16(L2)2]·7MeCN (9·7MeCN) or [Na]6[Ti8F20Na(MeCN)2(L2)][Ti8F20Na(MeCN)0.5(L2)]·15.5(C2H3N) (10·15.5MeCN). In the case of [TiI4], the ladder [(TiI)2(TiINCMe)2(μ3-O)2(L2)]·7.25CH2Cl2 (11·7.25CH2Cl2) was isolated. These complexes have been screened for their potential to act as catalysts in the ring opening polymerization (ROP) of ε-caprolactone (ε-CL), δ-valerolactone (δ-VL) and rac-lactide (r-LA), both in air and N2. For ε-CL and δ-VL, moderate activity at 130 °C over 24 h was observed for 1, 9 and 11; for r-LA, only 1 exhibited reasonable activity. In the case of the co-polymerization of ε-CL with δ-VL, the complexes 1 and 11 afforded reasonable conversions and low molecular weight polymers, whilst 4, 6, and 9 were less effective. None of the complexes proved to be active in the co-polymerization of ε-CL and r-LA under the conditions employed herein.

摘要

杯[6]芳烃 H6、L1H6 与 [TiCl4] 相互作用，生成了配合物 [Ti2Cl3(MeCN)2(OH2)(L1H)][Ti2Cl3(MeCN)3(L1H)]·4.5MeCN（1·4.5MeCN），其中两个拟八面体钛中心与一个杯[6]芳烃键合。类似的反应，但使用 THF 作为溶剂，得到了 THF 开环产物 [Ti4Cl2(μ3-O)2(NCMe)2(L)2(O(CH2)4Cl)2]·4MeCN（2·4MeCN），其中 LH4 = p-叔丁基杯[4]芳烃 H4。L1H6 与 [TiF4]（3 当量）反应后，经后处理得到配合物 [(TiF)2(μ-F)L1H]2·6.5MeCN（3·6.5MeCN）。p-叔丁基杯[8]芳烃 H8、L2H8 与 [TiCl4] 反应得到了配合物 [(TiCl)2(TiClNCMe)2(μ3-O)2(L2)]·1.5MeCN（4·1.5MeCN）。类似的反应得到了共结晶配合物 [Ti4O2Cl4(MeCN)2(L2)][Ti3Cl6(MeCN)5(OH2)(L2H2)]·H2O·11MeCN（5·H2O 11MeCN）。L2H8 化学与 [TiBr4] 的扩展反应取决于反应物的化学计量比，得到了配合物 [(TiBr)2(TiBrNCMe)2(μ3-O)2(L2)]·6MeCN（6·6MeCN）或 [[Ti(NCMe)2Br]2Ti(O)Br2(NCMe)]·7.5MeCN（7·7.5MeCN），而使用 [TiF4] 得到了含有 Ca2+ 和 Na+ 的配合物，据认为它们源自干燥剂，即 [Ti8CaF20(OH2)Na2(MeCN)4(L2)2]·14MeCN（8·14MeCN）、[Na(MeCN)2][Ti8CaF20NaO16(L2)2]·7MeCN（9·7MeCN）或 [Na]6[Ti8F20Na(MeCN)2(L2)][Ti8F20Na(MeCN)0.5(L2)]·15.5(C2H3N）（10·15.5MeCN）。对于 [TiI4]，得到了梯型配合物 [(TiI)2(TiINCMe)2(μ3-O)2(L2)]·7.25CH2Cl2（11·7.25CH2Cl2）。这些配合物已被筛选用于在空气和 N2 中作为 ε-己内酯（ε-CL）、δ-戊内酯（δ-VL）和 rac-丙交酯（r-LA）开环聚合（ROP）的催化剂。对于 ε-CL 和 δ-VL，在 130°C 下反应 24 小时，1、9 和 11 表现出中等活性；对于 r-LA，只有 1 表现出合理的活性。在 ε-CL 与 δ-VL 的共聚反应中，配合物 1 和 11 得到了合理的转化率和低分子量聚合物，而 4、6 和 9 的效果较差。在所采用的条件下，没有一种配合物被证明能有效地用于 ε-CL 和 r-LA 的共聚反应。