Nontoxic N-Heterocyclic Olefin Catalyst Systems for Well-Defined Polymerization of Biocompatible Aliphatic Polycarbonates

IF 4.7 Q1 POLYMER SCIENCE
Christian Czysch, Thi Dinh, Yannick Fröder, Leon Bixenmann, Patric Komforth, Alexander Balint, Hans-Joachim Räder, Stefan Naumann and Lutz Nuhn*, 
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引用次数: 1

Abstract

Herein, N-heterocyclic olefins (NHOs) are utilized as catalysts for the ring-opening polymerization (ROP) of functional aliphatic carbonates. This emerging class of catalysts provides high reactivity and rapid conversion. Aiming for the polymerization of monomers with high side chain functionality, six-membered carbonates derived from 2,2-bis(hydroxymethyl)propionic acid (bis-MPA) served as model compounds. Tuning the reactivity of NHO from predominant side chain transesterification at room temperature toward ring-opening at lowered temperatures (−40 °C) enables controlled ROP. These refined conditions give narrowly distributed polymers of the hydrophobic carbonate 5-methyl-5-benzyloxycarbonyl-1,3-dioxan-2-one (MTC-OBn) (Đ < 1.30) at (pseudo)first-order kinetic polymerization progression. End group definition of these polymers demonstrated by mass spectrometry underlines the absence of side reactions. For the active ester monomer 5-methyl-5-pentafluorophenyloxycarbonyl-1,3-dioxane-2-one (MTC-PFP) with elevated side chain reactivity, a cocatalysis system consisting of NHO and the Lewis acid magnesium iodide is required to retune the reactivity from side chains toward controlled ROP. Excellent definition of the products (Đ < 1.30) and mass spectrometry data demonstrate the feasibility of this cocatalyst approach, since MTC-PFP has thus far only been polymerized successfully using acidic catalysts with moderate control. The broad feasibility of our findings was further demonstrated by the synthesis of block copolymers for bioapplications and their successful nanoparticular assembly. High tolerability of NHO in vitro with concentrations ranging up to 400 μM (equivalent to 0.056 mg/mL) further emphasize the suitability as a catalyst for the synthesis of bioapplicable materials. The polycarbonate block copolymer mPEG44-b-poly(MTC-OBn) enables physical entrapment of hydrophobic dyes in sub-20 nm micelles, whereas the active ester block copolymer mPEG44-b-poly(MTC-PFP) is postfunctionalizable by covalent dye attachment. Both block copolymers thereby serve as platforms for physical or covalent modification of nanocarriers for drug delivery.

Abstract Image

用于生物相容性脂肪族聚碳酸酯聚合的无毒n -杂环烯烃催化剂体系
本文中,N-杂环烯烃(NHO)被用作官能脂肪族碳酸酯的开环聚合(ROP)的催化剂。这种新兴类型的催化剂提供了高反应性和快速转化。为了聚合具有高侧链官能度的单体,由2,2-双(羟甲基)丙酸(双MPA)衍生的六元碳酸酯用作模型化合物。将NHO的反应性从室温下的主要侧链酯交换调节到较低温度(−40°C)下的开环,可以实现可控的ROP。这些精制条件得到疏水性碳酸酯5-甲基-5-苄氧基羰基-1,3-二恶烷-2-酮(MTC OBn)(Δ<;1.30)在(伪)一级动力学聚合过程中的窄分布聚合物。质谱法证明这些聚合物的端基定义强调了不存在副反应。对于侧链反应性提高的活性酯单体5-甲基-5-五氟苯基氧羰基-1,3-二恶烷-2-酮(MTC-PFP),需要由NHO和路易斯酸碘化镁组成的助催化系统来将反应性从侧链重新调整为受控的ROP。产物的良好定义(Der<;1.30)和质谱数据证明了这种助催化剂方法的可行性,因为迄今为止,MTC-PFP仅使用适度控制的酸性催化剂成功聚合。用于生物应用的嵌段共聚物的合成及其成功的纳米组装进一步证明了我们发现的广泛可行性。NHO在体外的高耐受性(浓度范围高达400μM(相当于0.056 mg/mL))进一步强调了其作为合成生物适用材料的催化剂的适用性。聚碳酸酯嵌段共聚物mPEG44-poly(MTC-OBn)能够将疏水性染料物理包埋在低于20nm的胶束中,而活性酯嵌段共聚物mPEG44-poly(MCC-PFP)可通过共价染料附着进行后官能化。因此,两种嵌段共聚物都充当用于药物递送的纳米载体的物理或共价修饰的平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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