基于开环易位聚合的碳酸钙纳米颗粒增强聚合物整体材料的合成用于组织工程

Ring-Opening Metathesis Polymerization-Based Synthesis of CaCO(3) Nanoparticle-Reinforced Polymeric Monoliths for Tissue Engineering.

作者信息

Weichelt Franziska, Frerich Bernhard, Lenz Solvig, Tiede Stefanie, Buchmeiser Michael R

机构信息

Leibniz-Institut für Oberflächenmodifizierung e. V. IOM, Permoserstrasse 15, D-04318 Leipzig, Germany.

出版信息

Macromol Rapid Commun. 2010 Sep 1;31(17):1540-5. doi: 10.1002/marc.201000317. Epub 2010 Jul 27.

DOI:10.1002/marc.201000317

PMID:21567564

Abstract

Porous monolithic materials have been prepared via ring-opening metathesis polymerization from norborn-2-ene and a 7-oxanorborn-2-ene-based cross-linker in the presence of porogenic solvents (i.e., 2-propanol and toluene) and norborn-2-enephosphonate surface-modified CaCO(3) nanoparticles, using the 3(rd) -generation Grubbs-initiator RuCl(2) (Py)(2) (IMesH(2) )(CHPh). The experimental setup and the conditions chosen allowed for the manufacturing of polymeric monoliths characterized by a homogeneous distribution of the inorganic nanoparticles throughout the polymeric monolith. Depending on the nanoparticle content, the macropore diameters could be varied in the 30-120 µm regime. Noteworthy, the addition of nanoparticles did not affect the phase separation-triggered formation of the monolithic matrix nor the meso- and microporosity as evidenced by N(2) -adsorption experiments.

摘要

在致孔溶剂（即2-丙醇和甲苯）以及降冰片-2-烯膦酸酯表面改性的CaCO₃纳米颗粒存在的情况下，使用第三代格拉布催化剂RuCl₂(Py)₂(IMesH₂)(CHPh)，通过降冰片-2-烯和基于7-氧杂降冰片-2-烯的交联剂的开环易位聚合反应制备了多孔整体材料。所选择的实验装置和条件能够制造出无机纳米颗粒在整个聚合物整体中均匀分布的聚合物整体。根据纳米颗粒的含量，大孔直径可以在30 - 120 µm范围内变化。值得注意的是，正如N₂吸附实验所证明的，纳米颗粒的添加既不影响由相分离引发的整体基质的形成，也不影响中孔和微孔结构。

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基于开环易位聚合的碳酸钙纳米颗粒增强聚合物整体材料的合成用于组织工程

Ring-Opening Metathesis Polymerization-Based Synthesis of CaCO(3) Nanoparticle-Reinforced Polymeric Monoliths for Tissue Engineering.

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