纳米通道外表面抗干扰和内壁离子门控的独特功能元件。

Distinct functional elements for outer-surface anti-interference and inner-wall ion gating of nanochannels.

机构信息

Engineering Research Center of Nano-Geomaterials of Ministry of Education, Faculty of Materials Science and Chemistry, China University of Geosciences (CUG), 388 lumo Road, 430074, Wuhan, China.

State Key Laboratory of Material Processing and Die & Mould Technology, School of Material Sciences and Engineering, Huazhong University of Science and Technology (HUST), 430074, Wuhan, China.

出版信息

Nat Commun. 2018 Nov 1;9(1):4557. doi: 10.1038/s41467-018-06873-z.

DOI:10.1038/s41467-018-06873-z

PMID:30385758

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6212446/

Abstract

Over the decades, widespread advances have been achieved on nanochannels, including nanochannel-based DNA sequencing, single-molecule detection, smart sensors, and energy transfer and storage. However, most interest has been focused on the contribution from the functional elements (FEs) at the inner wall (IW) of nanochannels, whereas little attention has been paid to the contribution from the FEs at the nanochannels' outer surface (OS). Herein, we achieve explicit partition of FE and FE based on accurate regional-modification of OS and IW. The FE are served for ionic gating, and the chosen FE (hydrophobic or charged) are served for blocking interference molecules into the nanochannels, decreasing the false signals for the ionic gating in complex environments. Furthermore, we define a composite factor, areas of a radar map, to evaluate the FE performance for blocking interference molecules.

摘要

几十年来，在纳米通道方面取得了广泛的进展，包括基于纳米通道的 DNA 测序、单分子检测、智能传感器以及能量传递和存储。然而，大多数研究都集中在纳米通道内壁（IW）的功能元件（FE）的贡献上，而对外壁（OS）的 FE 贡献关注较少。在此，我们通过对 OS 和 IW 的精确区域修饰，实现了 FE 和 FE 的明确划分。FE 用于离子门控，选择的 FE（疏水或带电）用于阻止干扰分子进入纳米通道，减少复杂环境中离子门控的假信号。此外，我们定义了一个复合因子，雷达图的面积，来评估 FE 阻止干扰分子的性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f2d1/6212446/fe4ce668944c/41467_2018_6873_Fig1_HTML.jpg

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纳米通道外表面抗干扰和内壁离子门控的独特功能元件。

Distinct functional elements for outer-surface anti-interference and inner-wall ion gating of nanochannels.

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