Rational Design of Chiral Nanostructures from Self-Assembly of a Ferrocene-Modified Dipeptide

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• 作者：Yuefei Wang ; Wei Qi ; Renliang Huang ; Xuejiao Yang ; Mengfan Wang ; Rongxin Su ; Zhimin He
• 刊名：Journal of the American Chemical Society
• 出版年：2015
• 出版时间：June 24, 2015
• 年：2015
• 卷：137
• 期：24
• 页码：7869-7880
• 全文大小：783K
• ISSN：1520-5126

文摘

We report a new paradigm for the rational design of chiral nanostructures that is based on the hierarchical self-assembly of a ferrocene (Fc)-modified dipeptide, ferrocene-l-Phe-l-Phe-OH (Fc-FF). Compared to other chiral self-assembling systems, Fc-FF is unique because of its smaller size, biocompatibility, multiple functions (a redox center), and environmental responsiveness. X-ray and spectroscopic analyses showed that the incorporation of counterions during the hierarchical self-assembly of Fc-FF changed the conformations of the secondary structures from flat 尾 sheets into twisted 尾 sheets. This approach enables chiral self-assembly and the formation of well-defined chiral nanostructures composed of helical twisted 尾 sheets. We identified two elementary forms for the helical twist of the 尾 sheets, which allowed us to create a rich variety of rigid chiral nanostructures over a wide range of scales. Furthermore, through subtle modulations in the counterions, temperature, and solvent, we are able to precisely control the helical pitch, diameter, and handedness of the self-assembled chiral nanostructures. This unprecedented level of control not only offers insights into how rationally designed chiral nanostructures can be formed from simple molecular building blocks but also is of significant practical value for the use in chiroptics, templates, chiral sensing, and separations.