固态纳米孔的制备与应用

Fabrication and Applications of Solid-State Nanopores.

作者信息

Chen Qi, Liu Zewen

机构信息

Institute of Microelectronics, Tsinghua University, Beijing 100084, China.

出版信息

Sensors (Basel). 2019 Apr 20;19(8):1886. doi: 10.3390/s19081886.

DOI:10.3390/s19081886

PMID:31010038

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6515193/

Abstract

Nanopores fabricated from synthetic materials (solid-state nanopores), platforms for characterizing biological molecules, have been widely studied among researchers. Compared with biological nanopores, solid-state nanopores are mechanically robust and durable with a tunable pore size and geometry. Solid-state nanopores with sizes as small as 1.3 nm have been fabricated in various films using engraving techniques, such as focused ion beam (FIB) and focused electron beam (FEB) drilling methods. With the demand of massively parallel sensing, many scalable fabrication strategies have been proposed. In this review, typical fabrication technologies for solid-state nanopores reported to date are summarized, with the advantages and limitations of each technology discussed in detail. Advanced shrinking strategies to prepare nanopores with desired shapes and sizes down to sub-1 nm are concluded. Finally, applications of solid-state nanopores in DNA sequencing, single molecule detection, ion-selective transport, and nanopatterning are outlined.

摘要

由合成材料制造的纳米孔（固态纳米孔）作为表征生物分子的平台，已受到研究人员的广泛研究。与生物纳米孔相比，固态纳米孔机械性能强大且耐用，孔径和几何形状可调。利用诸如聚焦离子束（FIB）和聚焦电子束（FEB）钻孔方法等刻蚀技术，已在各种薄膜中制造出尺寸小至1.3纳米的固态纳米孔。随着大规模并行传感的需求，人们提出了许多可扩展的制造策略。在这篇综述中，总结了迄今为止报道的固态纳米孔的典型制造技术，并详细讨论了每种技术的优缺点。得出了制备尺寸小至亚1纳米的具有所需形状和尺寸的纳米孔的先进收缩策略。最后，概述了固态纳米孔在DNA测序、单分子检测、离子选择性传输和纳米图案化方面的应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a26d/6515193/c97eeeeb77ab/sensors-19-01886-g004.jpg

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固态纳米孔的制备与应用

Fabrication and Applications of Solid-State Nanopores.

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