Fawaz Aldabbagh , Fumi Ishizuka , Youssef Kerdi , Morvarid H. Balouchi , Harpal S. Dhiraj , Per B. Zetterlund
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引用次数: 0
摘要
硼酸(BA)分子赋予聚合物多种刺激响应特性。PISA 是制备核壳纳米粒子(NPs)最有效的技术,但含游离硼酸单体的水分散 PISA 会因疏水核形成硼氧酐而变得复杂。在本研究中,N-苯基丙烯酰胺的游离含 BA 衍生物的分散可逆加成-断裂链转移(RAFT)共聚产生的 NP 形貌不同于不含 BA 的等效 PISA 均聚形成的 NP 形貌。根据条件的不同,PISA 会产生球状、棒状和蠕虫状的 NP,通过使用较高比例的非刺激响应单体来产生大的复合胶束,可以提高胶体稳定性。用水性分散溶剂或水稀释富含硼氧的共聚物 NPs,水解产生的 PISA 分散体的聚合后刺激响应可产生微米大小的蠕虫、薄片和囊泡。高阶形态的自组装受水解程度的影响。由此产生的游离含 BA 的 NPs 在碱化和添加葡萄糖后会变小并呈球形。
Stimuli-responsive nanoparticles from RAFT dispersion polymerization-induced self-assembly (PISA) of N-phenylacrylamide copolymerized with a boronic acid-substituted derivative
Boronic acid (BA) moieties confer a variety of stimuli-response properties upon polymers. PISA is the most efficient technique for the preparation of core–shell nanoparticles (NPs), however aqueous dispersion PISA of free BA-containing monomers is complicated by the formation of the boroxine anhydride at the hydrophobic core. In the present work, dispersion reversible addition-fragmentation chain transfer (RAFT) copolymerization of a free BA-containing derivative of N-phenylacrylamide yields NP morphologies which are different to those formed from the equivalent PISA homopolymerization without BA. Depending on conditions, PISA results in spheres, rods, and worms with colloidal stability improved by using a higher fraction of the non-stimuli responsive monomer to give large compound micelles. Post-polymerization stimuli-response from the resultant PISA dispersion through hydrolysis of boroxine-rich copolymer NPs by dilution with the aqueous dispersion solvent or with water yields micron-sized worms, lamellae, and vesicles. Self-assembly to higher order morphologies is driven by the extent of hydrolysis. The resultant free BA-containing NPs becoming smaller and spherical upon basification and glucose addition.
期刊介绍:
European Polymer Journal is dedicated to publishing work on fundamental and applied polymer chemistry and macromolecular materials. The journal covers all aspects of polymer synthesis, including polymerization mechanisms and chemical functional transformations, with a focus on novel polymers and the relationships between molecular structure and polymer properties. In addition, we welcome submissions on bio-based or renewable polymers, stimuli-responsive systems and polymer bio-hybrids. European Polymer Journal also publishes research on the biomedical application of polymers, including drug delivery and regenerative medicine. The main scope is covered but not limited to the following core research areas:
Polymer synthesis and functionalization
• Novel synthetic routes for polymerization, functional modification, controlled/living polymerization and precision polymers.
Stimuli-responsive polymers
• Including shape memory and self-healing polymers.
Supramolecular polymers and self-assembly
• Molecular recognition and higher order polymer structures.
Renewable and sustainable polymers
• Bio-based, biodegradable and anti-microbial polymers and polymeric bio-nanocomposites.
Polymers at interfaces and surfaces
• Chemistry and engineering of surfaces with biological relevance, including patterning, antifouling polymers and polymers for membrane applications.
Biomedical applications and nanomedicine
• Polymers for regenerative medicine, drug delivery molecular release and gene therapy
The scope of European Polymer Journal no longer includes Polymer Physics.
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