Recent advances of nanopore technique in single cell analysis

Xue Zhang; Zhuoqun Su; Yan Zhao; Di Wu; Yongning Wu; Guoliang Li

doi:10.1039/d3an01973j

Recent advances of nanopore technique in single cell analysis

Xue Zhang, Zhuoqun Su, Yan Zhao, Di Wu, Yongning Wu, Guoliang Li

School of Biological Sciences

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Single cells and their dynamic behavior are closely related to biological research. Monitoring their dynamic behavior is of great significance for disease prevention. How to achieve rapid and non-destructive monitoring of single cells is a major issue that needs to be solved urgently. As an emerging technology, nanopores have been proven to enable non-destructive and label-free detection of single cells. The structural properties of nanopores enable a high degree of sensitivity and accuracy during analysis. In this article, we summarize and classify the different types of solid-state nanopores that can be used for single-cell detection and illustrate their specific applications depending on the size of the analyte. In addition, their research progress in material transport and microenvironment monitoring is also highlighted. Finally, a brief summary of existing research challenges and future trends in nanopore single-cell analysis is tentatively provided.

Original language	English
Pages (from-to)	1350-1363
Number of pages	14
Journal	The Analyst
Volume	149
Issue number	5
Early online date	05 Feb 2024
DOIs	https://doi.org/10.1039/d3an01973j
Publication status	Published - 07 Mar 2024

Keywords

Electrochemistry
Spectroscopy
Environmental Chemistry
Biochemistry
Analytical Chemistry

Access to Document

10.1039/d3an01973jLicence: Unspecified

Cite this

@article{e158644d286a40a8936d53f0ebff6040,

title = "Recent advances of nanopore technique in single cell analysis",

abstract = "Single cells and their dynamic behavior are closely related to biological research. Monitoring their dynamic behavior is of great significance for disease prevention. How to achieve rapid and non-destructive monitoring of single cells is a major issue that needs to be solved urgently. As an emerging technology, nanopores have been proven to enable non-destructive and label-free detection of single cells. The structural properties of nanopores enable a high degree of sensitivity and accuracy during analysis. In this article, we summarize and classify the different types of solid-state nanopores that can be used for single-cell detection and illustrate their specific applications depending on the size of the analyte. In addition, their research progress in material transport and microenvironment monitoring is also highlighted. Finally, a brief summary of existing research challenges and future trends in nanopore single-cell analysis is tentatively provided.",

keywords = "Electrochemistry, Spectroscopy, Environmental Chemistry, Biochemistry, Analytical Chemistry",

author = "Xue Zhang and Zhuoqun Su and Yan Zhao and Di Wu and Yongning Wu and Guoliang Li",

year = "2024",

month = mar,

day = "7",

doi = "10.1039/d3an01973j",

language = "English",

volume = "149",

pages = "1350--1363",

journal = "The Analyst",

issn = "0003-2654",

publisher = "Royal Society of Chemistry",

number = "5",

}

TY - JOUR

T1 - Recent advances of nanopore technique in single cell analysis

AU - Zhang, Xue

AU - Su, Zhuoqun

AU - Zhao, Yan

AU - Wu, Di

AU - Wu, Yongning

AU - Li, Guoliang

PY - 2024/3/7

Y1 - 2024/3/7

N2 - Single cells and their dynamic behavior are closely related to biological research. Monitoring their dynamic behavior is of great significance for disease prevention. How to achieve rapid and non-destructive monitoring of single cells is a major issue that needs to be solved urgently. As an emerging technology, nanopores have been proven to enable non-destructive and label-free detection of single cells. The structural properties of nanopores enable a high degree of sensitivity and accuracy during analysis. In this article, we summarize and classify the different types of solid-state nanopores that can be used for single-cell detection and illustrate their specific applications depending on the size of the analyte. In addition, their research progress in material transport and microenvironment monitoring is also highlighted. Finally, a brief summary of existing research challenges and future trends in nanopore single-cell analysis is tentatively provided.

AB - Single cells and their dynamic behavior are closely related to biological research. Monitoring their dynamic behavior is of great significance for disease prevention. How to achieve rapid and non-destructive monitoring of single cells is a major issue that needs to be solved urgently. As an emerging technology, nanopores have been proven to enable non-destructive and label-free detection of single cells. The structural properties of nanopores enable a high degree of sensitivity and accuracy during analysis. In this article, we summarize and classify the different types of solid-state nanopores that can be used for single-cell detection and illustrate their specific applications depending on the size of the analyte. In addition, their research progress in material transport and microenvironment monitoring is also highlighted. Finally, a brief summary of existing research challenges and future trends in nanopore single-cell analysis is tentatively provided.

KW - Electrochemistry

KW - Spectroscopy

KW - Environmental Chemistry

KW - Biochemistry

KW - Analytical Chemistry

U2 - 10.1039/d3an01973j

DO - 10.1039/d3an01973j

M3 - Article

SN - 0003-2654

VL - 149

SP - 1350

EP - 1363

JO - The Analyst

JF - The Analyst

IS - 5

ER -

Recent advances of nanopore technique in single cell analysis

Abstract

Keywords

Access to Document

Fingerprint

Cite this