Kinetically controlled self-assembly of redox-active ferrocene- diphenylalanine: From nanospheres to nanofibers

Wang Y.; Huang R.; Qi W.; Wu Z.; Su R.; He Z.

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Kinetically controlled self-assembly of redox-active ferrocene- diphenylalanine: From nanospheres to nanofibers

机译：氧化还原活性二茂铁-二苯丙氨酸的动力学控制自组装：从纳米球到纳米纤维

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Putting metals into organic compounds such as peptides can lead to many new desirable properties. Here we designed a novel bioorganometallic molecule, ferrocene-diphenylalanine (Fc-FF), and investigated its self-assembly behavior. We directly observed a morphological transition from metastable nanospheres to nanofibers, which led to the formation of a self-supporting hydrogel. The strong hydrophobic interaction of the Fc moiety was suggested to have a key role in this kinetically controlled self-assembly process. Moreover, the redox center of the ferrocene group further allowed us to reversibly control the self-assembly behavior of Fc-FF by altering its redox state.

机译：将金属放入诸如肽之类的有机化合物中可以带来许多新的理想特性。在这里，我们设计了一种新型的生物有机金属分子，二茂铁-二苯丙氨酸（Fc-FF），并研究了其自组装行为。我们直接观察到从亚稳态纳米球到纳米纤维的形态转变，这导致了自支撑水凝胶的形成。提示Fc部分的强疏水相互作用在该动力学控制的自组装过程中具有关键作用。此外，二茂铁基团的氧化还原中心还使我们能够通过改变Fc-FF的氧化还原状态来可逆地控制Fc-FF的自组装行为。

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《Nanotechnology》 |2013年第46期|共11页
作者
Wang Y.; Huang R.; Qi W.; Wu Z.; Su R.; He Z.;
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Kinetically; redox-active ferrocene-; From nanospheres;

机译：动力学;氧化还原活性二茂铁-;来自纳米球;

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1. Kinetically controlled self-assembly of redox-active ferrocene- diphenylalanine: From nanospheres to nanofibers [J] . Wang Y., Huang R., Qi W., Nanotechnology . 2013,第46期

机译：氧化还原活性二茂铁-二苯丙氨酸的动力学控制自组装：从纳米球到纳米纤维
2. One-Pot Synthesis of Diphenylalanine-Based Hybrid Nanospheres for Controllable pH- and GSH-Responsive Delivery of Drugs [J] . Li Qiuju, Chen Min, Chen Daoyong, Chemistry of Materials: A Publication of the American Chemistry Society . 2016,第18期

机译：一锅合成基于二苯丙氨酸的混合纳米球可控的pH和GSH响应药物传递。
3. Thermodynamically versus Kinetically Controlled Self-Assembly of a Naphthalenediimide-Thiophene Derivative: From Crystalline, Fluorescent, n-Type Semiconducting 1D Needles to Nanofibers [J] . Zangoli Mattia, Gazzano Massimo, Monti Filippo, ACS applied materials & interfaces . 2019,第18期

机译：热力学与萘二酰亚胺 - 噻吩衍生物的动力学上控制的自我组装：从结晶，荧光，n型半导体1d针到纳米纤维
4. Self-assembly of Diphenylalanine Peptides into Nanowires for Nanobiotechnology Applications [C] . Jungki Ryu, Joon Seok Lee, Chan Beum Park PMSE Symposia . 2010

机译：二苯氨基胺肽的自组装成纳米线，用于纳米学纳米学应用
5. Programmable Nanomaterials Development via Kinetically Controlled Self-Assembly of Computationally Designed Peptides [D] . Tian, Yu. 2018

机译：通过动力学控制的自组装计算设计肽的可编程纳米材料开发。
6. Controlling self-assembly of diphenylalanine peptides at high pH using heterocyclic capping groups [O] . Adam D. Martin, Jonathan P. Wojciechowski, Andrew B. Robinson, -1

机译：使用杂环封端基控制高pH下二苯丙氨酸肽的自组装
7. Controlling self-assembly of diphenylalanine peptides at high pH using heterocyclic capping groups [O] . Adam D. Martin, Jonathan P. Wojciechowski, Andrew B. Robinson, 2017

机译：使用杂环覆盖基团在高pH下控制二苯基丙氨酸肽的自组装

Kinetically controlled self-assembly of redox-active ferrocene- diphenylalanine: From nanospheres to nanofibers

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