Electrochemical biosensor for sensitive detection of SARS-CoV-2 gene fragments using BiSe topological insulator.

Electrochemical biosensor for sensitive detection of SARS-CoV-2 gene fragments using BiSe topological insulator.

Publication date: Oct 01, 2024

In this study, we have designed an electrochemical biosensor based on topological material BiSe for the sensitive detection of SARS-CoV-2 in the COVID-19 pandemic. Flake-shaped BiSe was obtained directly from high-quality single crystals using mechanical exfoliation, and the single-stranded DNA was immobilized onto it. Under optimal conditions, the peak current of the differential pulse voltammetry method exhibited a linear relationship with the logarithm of the concentration of target-complementary-stranded DNA, ranging from 1. 0 cD7 10 to 1. 0 cD7 10 M, with a detection limit of 3. 46 cD7 10 M. The topological material BiSe, with Dirac surface states, enhanced the signal-to-interference plus noise ratio of the electrochemical measurements, thereby improving the sensitivity of the sensor. Furthermore, the electrochemical sensor demonstrated excellent specificity in recognizing RNA. It can detect complementary RNA by amplifying and transcribing the initial DNA template, with an initial DNA template concentration ranging from 1. 0 cD7 10 to 1. 0 cD7 10 M. Furthermore, the sensor also effectively distinguished negative and positive results by detecting splitting-synthetic SARS-CoV-2 pseudovirus with a concentration of 1 copy/μL input. Our work underscores the immense potential of the electrochemical sensing platform based on the topological material BiSe in the detection of pathogens during the rapid spread of acute infectious diseases.

Concepts Keywords
Bioelectrochemistry Bi(2)Se(3)
Crystals Biosensing Techniques
Dirac Bismuth
Dna Bismuth
Infectious COVID-19
Differential pulse voltammetry
DNA, Single-Stranded
DNA, Single-Stranded
Electrochemical biosensor
Electrochemical Techniques
Humans
Limit of Detection
RNA, Viral
RNA, Viral
SARS-CoV-2
Selenium Compounds
Selenium Compounds
synthetic SARS-CoV-2 pseudovirus
Topological insulator material

Semantics

Type Source Name
disease VO gene
disease MESH COVID-19 pandemic
disease IDO quality
disease MESH infectious diseases
drug DRUGBANK Selenium

Original Article

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