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Tuning crystallization pathways through sequence engineering of biomimetic polymers
Nature Materials ( IF 41.2 ) Pub Date : 2017-04-17 00:00:00 , DOI: 10.1038/nmat4891 Xiang Ma , Shuai Zhang , Fang Jiao , Christina J. Newcomb , Yuliang Zhang , Arushi Prakash , Zhihao Liao , Marcel D. Baer , Christopher J. Mundy , James Pfaendtner , Aleksandr Noy , Chun-Long Chen , James J. De Yoreo
Nature Materials ( IF 41.2 ) Pub Date : 2017-04-17 00:00:00 , DOI: 10.1038/nmat4891 Xiang Ma , Shuai Zhang , Fang Jiao , Christina J. Newcomb , Yuliang Zhang , Arushi Prakash , Zhihao Liao , Marcel D. Baer , Christopher J. Mundy , James Pfaendtner , Aleksandr Noy , Chun-Long Chen , James J. De Yoreo
AFM measurements of peptoids assembling into sheets and networks show that the crystallization mechanism is determined by the molecular structure, where the addition of a hydrophobic segment alters the crystal formation process into a two-step pathway.
中文翻译:
通过仿生聚合物的序列工程调整结晶途径
类肽组装成薄片和网络的AFM测量表明,结晶机理是由分子结构决定的,其中疏水链段的添加将晶体形成过程改变为两步路径。
更新日期:2017-05-18
中文翻译:
通过仿生聚合物的序列工程调整结晶途径
类肽组装成薄片和网络的AFM测量表明,结晶机理是由分子结构决定的,其中疏水链段的添加将晶体形成过程改变为两步路径。