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Nanoscale solid-state electron transport via ferritin: Implications in molecular bioelectronics
Nano-Structures & Nano-Objects Pub Date : 2020-10-20 , DOI: 10.1016/j.nanoso.2020.100582
Tatini Rakshit , Sudipta Bera , Jayeeta Kolay , Rupa Mukhopadhyay

In this article, an outline of the different parameters (for example, temperature, metal core reconstitution, compressive pressure) that control solid-state electron transport through the iron-storage protein ferritin, in monolayer and multilayer form, is presented. It is shown, primarily by using the local probe measurement methods like scanning tunnelling​ microscopy/spectroscopy and current sensing atomic force microscopy/spectroscopy that ferritin is a potentially versatile bioelectronic material since its electron transport properties can be controlled by various simple means and its film structure can be largely tailored as per need.



中文翻译:

通过铁蛋白的纳米级固态电子传输:对分子生物电子学的影响

本文介绍了控制固态电子通过单层和多层形式通过铁存储蛋白铁蛋白的固态电子传输的不同参数(例如温度,金属芯重构,压缩压力)的概述。主要通过使用局部探针测量方法(例如扫描隧道显微镜/光谱学和电流感应原子力显微镜/光谱学)表明,铁蛋白是潜在的通用生物电子材料,因为其电子传输特性可以通过各种简单的方法及其薄膜来控制。可以根据需要量身定制结构。

更新日期:2020-11-03
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