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A GQD/g-C3N4-modified nanochip for electrochemical detection of dengue serotype 3
- Authors
- Poria, Renu; Kaushal, Ankur; Verma, Shruti; Ramasamy, Selva Kumar; Ghodake, Gajanan; Kumar, Deepak; Gupta, Shagun
- Issue Date
- May-2025
- Publisher
- Royal Society of Chemistry
- Keywords
- Graphite; Dna Probes; Dna, Viral; Graphite; Graphitic Carbon Nitride; Nitriles; Nitrogen Compounds; Biochips; Differential Pulse Voltammetry; Dna Probe; Dna Sensors; Electrochemical Detection; Ftir; Graphenes; Nanochips; Printed Papers; Screen-printed; Serotypes; Cyclic Voltammetry; Graphite; Graphitic Carbon Nitride; Nitrile; Nitrogen Derivative; Quantum Dot; Virus Dna; Blood Group Typing; Chemistry; Dengue; Dengue Virus; Devices; Diagnosis; Dna Probe; Electrochemical Analysis; Electrode; Genetic Procedures; Genetics; Human; Isolation And Purification; Limit Of Detection; Procedures; Virology; Biosensing Techniques; Dengue; Dengue Virus; Dna Probes; Dna, Viral; Electrochemical Techniques; Electrodes; Graphite; Humans; Limit Of Detection; Nitriles; Nitrogen Compounds; Quantum Dots; Serogroup
- Citation
- Analyst, v.150, no.11, pp 2430 - 2439
- Pages
- 10
- Indexed
- SCIE
SCOPUS
- Journal Title
- Analyst
- Volume
- 150
- Number
- 11
- Start Page
- 2430
- End Page
- 2439
- ISSN
- 0003-2654
1364-5528
- Abstract
- A graphene quantum dot/2D graphitic carbon nitride (GQD)/g-C3N4-based ultrasensitive DNA biosensor was constructed using 5 ' aminated DNA probes immobilized onto the surface of a screen-printed paper electrode (SPPE) for detecting DENV 3 (dengue serotype 3). FTIR, UV-Vis, TEM, and particle size measurements were used to characterize the synthesized nanocomposites. These results were then used to fabricate an affordable DNA sensor based on an SPPE that detects DENV 3. Initially, bioinformatics methods were used to develop DNA probes unique to DENV 3. The findings indicated that the most effective DNA probe for identifying DENV 3 was a 20-nucleotide sequence, which was immobilized onto a GQD/g-C3N4-modified SPPE. The electrochemical response was studied via differential pulse voltammetry (DPV) and cyclic voltammetry (CV). The electrode surface at each step of fabrication was characterized via FE-SEM, EIS and FTIR. The developed DNA sensor showed excellent analytical performance in terms of LOD and sensitivity. In CV, the LOD was 1 pg mu l-1, with a sensitivity of 7993 ng mu A-1 mm-2. However, in DPV, the LOD and sensitivity were 1 pg mu l-1 and 11 116 ng mu A-1 mm-2, respectively. This method should be preferable in the future for detecting DENV 3 in biological and clinical samples.
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Related Researcher
- Ghodake, Gajanan Sampatrao
- College of Life Science and Biotechnology (Department of Convergent Environmental Science)