A brief review of novel nucleic acid test biosensors and their application prospects for salmonids viral diseases detection

Xiaofei Liu; Songyin Qiu; Haiping Fang; Lin Mei; Hongli Jing; Chunyan Feng; Shaoqiang Wu; Xiangmei Lin

doi:10.1088/1674-4926/44/2/023103

Journals >Journal of Semiconductors >Volume 44 >Issue 2 >Page 023103 > Article

Journal of Semiconductors
Vol. 44, Issue 2, 023103 (2023)

A brief review of novel nucleic acid test biosensors and their application prospects for salmonids viral diseases detection

Xiaofei Liu¹, Songyin Qiu¹, Haiping Fang², Lin Mei¹, Hongli Jing¹, Chunyan Feng¹, Shaoqiang Wu^1、*, and Xiangmei Lin^1、**

Author Affiliations

¹Institute of Animal Inspection and Quarantine, Chinese Academy of Inspection and Quarantine, Beijing 100176, China

²Research Center of GACC for international Inspection and Quarantine Standards and Technical Regulations, Beijing 100013, China

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DOI: 10.1088/1674-4926/44/2/023103 Cite this Article

Xiaofei Liu, Songyin Qiu, Haiping Fang, Lin Mei, Hongli Jing, Chunyan Feng, Shaoqiang Wu, Xiangmei Lin. A brief review of novel nucleic acid test biosensors and their application prospects for salmonids viral diseases detection[J]. Journal of Semiconductors, 2023, 44(2): 023103 Copy Citation Text

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Fig. 1. (Color online) The traditional workflow of salmonids diseases detection and surveillance.

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(Color online) (a) Schematic illustration of a TriSilix chip and photographs of the actual device[50]. Reproduced with permission. Copyright 2020, Springer Nature. (b) Schematic illustration for CdS/MoS2 heterojunction-enhanced photoelectrochemical sensing strategy coupling with CHA and hemin-mediated chemiluminescence[54]. Reproduced with permission. Copyright 2016, Elsevier.

Fig. 2. (Color online) (a) Schematic illustration of a TriSilix chip and photographs of the actual device^[50]. Reproduced with permission. Copyright 2020, Springer Nature. (b) Schematic illustration for CdS/MoS₂ heterojunction-enhanced photoelectrochemical sensing strategy coupling with CHA and hemin-mediated chemiluminescence^[54]. Reproduced with permission. Copyright 2016, Elsevier.

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Fig. 3. (Color online) (a) Schematic illustration of the fabrication procedure of the CaMV35S promoter detection biosensor based on the application of SiO₂@CdTe QDs^[56]. Reproduced with permission. Copyright 2016, Elsevier. (b) Schematic illustration of biosensor strategies based on the application of dTiO_2–x^[57]_. Reproduced with permission. Copyright 2018, ACS. (c) Schematic illustration of the label-free electrochemical DNA assay based on nanoMoS₂ modified electrode (nanoMoS₂/CPE)^[59]. Reproduced with permission. Copyright 2015, Elsevier. (d) Schematic illustration of the fabrication of ITO nanowires device^[64]. Reproduced with permission. Copyright 2018, Elsevier.

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