Determination of Ag[I] and NADH Using Single-Molecule Conductance Ratiometric Probes
Author(s):
Yong Hu, Xiaoyan Zhuang, Luchun Lin, Junyang Liu, Zhiyi Yao, Zongyuan Xiao, Jia Shi, Baishan Fang, Wenjing Hong
Journal:
ACS Sensors
Year:
2021
Volume:
6
Pages
461–469
DOI:
10.1021/acssensors.0c02038
Abstract:
The sensing platform based on single-molecule measurements provides a new perspective for constructing ultrasensitive systems. However, most of these sensing platforms are unavailable for the accurate determination of target analytes.
Herein, we demonstrate a conductance ratiometric strategy
combing with the single-molecule conductance techniques for
ultrasensitive and precise determination. A single-molecule sensing
platform was constructed with the 3,3′,5,5′-tetramethylbenzidine
(TMB) and oxidized TMB (oxTMB) as the conductance
ratiometric probes, which was applied in the detection of Ag[I]
and nicotinamide adenine dinucleotide (NADH). It was found
that the charge transport properties of TMB and oxTMB were
distinct with more than an order of magnitude change of the
conductance, thus enabling conductance ratiometric analysis of the Ag[I] and NADH in the real samples. The proposed method is
ultrasensitive and has an anti-interference ability in the complicated matrix. The limit of detection can be as low as attomolar
concentrations (∼34 aM). We believe that the proposed conductance ratiometric approach is generally enough to have a promising
potential for broad and complicated analysis.