Recent Advances in Single-Molecule Sensors Based on STM Break Junction Measurements

Author:

Lv Shan-LingORCID,Zeng Cong,Yu Zhou,Zheng Ju-Fang,Wang Ya-HaoORCID,Shao Yong,Zhou Xiao-ShunORCID

Abstract

Single-molecule recognition and detection with the highest resolution measurement has been one of the ultimate goals in science and engineering. Break junction techniques, originally developed to measure single-molecule conductance, recently have also been proven to have the capacity for the label-free exploration of single-molecule physics and chemistry, which paves a new way for single-molecule detection with high temporal resolution. In this review, we outline the primary advances and potential of the STM break junction technique for qualitative identification and quantitative detection at a single-molecule level. The principles of operation of these single-molecule electrical sensing mainly in three regimes, ion, environmental pH and genetic material detection, are summarized. It clearly proves that the single-molecule electrical measurements with break junction techniques show a promising perspective for designing a simple, label-free and nondestructive electrical sensor with ultrahigh sensitivity and excellent selectivity.

Funder

the National Natural Science Foundation of China

the Leading Talent Program of Science and Technology Innovation in Zhejiang

Publisher

MDPI AG

Subject

Clinical Biochemistry,General Medicine,Analytical Chemistry,Biotechnology,Instrumentation,Biomedical Engineering,Engineering (miscellaneous)

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