Biosensors for Virus Detection

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Developments and applications of biosensor platforms for analysis of viral infections including Coronavirus, HIV, Hepatitis, Ebola, Zika, Norovirus, Influenza, SARS etc. Embraces properties, fabrication, and recent research regarding optical, electrochemical, piezoelectric, fluorescence, thermal, magnetic and micromechanical sensor families.

Author(s): Adil Denizli, Yeşeren Saylan
Series: IOP Series in Sensors and Sensor Systems
Publisher: IOP Publishing
Year: 2021

Language: English
Pages: 184
City: Bristol

PRELIMS.pdf
Preface
Editors’ biographies
Adil Denizli
Yeşeren Saylan
List of contributors
Abbreviations
CH001.pdf
Chapter 1 Viruses and the importance of virus detection
1.1 Introduction
1.2 Importance of virus detection
1.2.1 Coronavirus
1.2.2 Human immunodeficiency virus
1.2.3 Hepatitis
1.2.4 Ebola
1.2.5 Zika
1.2.6 Norovirus
1.2.7 Influenza
1.2.8 Other viruses
1.3 Conclusions and future perspectives
References and further reading
CH002.pdf
Chapter 2 Optical biosensors for virus detection
2.1 Introduction
2.2 Principle of optical biosensors
2.3 Importance of optical biosensors in medical diagnosis
2.4 Latest findings in the field of optical biosensors
2.4.1 Coronavirus
2.4.2 Human immunodeficiency virus
2.4.3 Hepatitis
2.4.4 Ebola
2.4.5 Zika
2.4.6 Norovirus
2.4.7 Influenza
2.4.8 Other viruses
2.5 Conclusions and future perspectives
References
CH003.pdf
Chapter 3 Electrochemical biosensors for virus detection
3.1 Introduction
3.2 Virus infection and detection
3.2.1 Viruses
3.2.2 Recognition elements for virus detection
3.3 Electrochemical sensors
3.3.1 Principle of electrochemical sensors
3.3.2 Advantages of electrochemical sensors
3.3.3 Importance of electrochemical biosensors in medical diagnosis
3.3.4 Capacitive sensors
3.3.5 Impedimetric sensors
3.3.6 Piezoelectric sensors
3.4 Phage display technology – an interesting possibility for biosensors
3.5 Example applications of electrochemical sensing in the literature
3.6 Future perspectives and conclusions
References
CH004.pdf
Chapter 4 Piezoelectric biosensors for virus detection
4.1 Introduction
4.2 Piezoelectric-based biosensors
4.3 Virus detection applications
4.3.1 Hepatitis B and C viruses
4.3.2 Influenza virus
4.3.3 SARS virus
4.3.4 Vaccinia virus
4.3.5 Human immunodeficiency virus
4.3.6 Human papillomavirus
4.3.7 Other viruses
4.4 Conclusions
References and further reading
CH005.pdf
Chapter 5 Fluorescence biosensors for virus detection
5.1 Introduction
5.1.1 Biosensors
5.2 Fluorescence biosensors
5.2.1 Latest applications of fluorescence biosensors for virus detection
5.3 Molecularly imprinted polymers: an overview
5.3.1 Molecularly imprinted polymers for fluorescence-based virus detection
5.4 Conclusions and future perspectives
References
CH006.pdf
Chapter 6 Thermal biosensors for virus detection
6.1 Introduction
6.2 Principle of thermal sensors
6.3 Recent trends in the field of thermal sensors
6.3.1 Y-cut quartz resonator
6.3.2 MEMS thermal biosensor
6.3.3 Single-walled carbon nanotube (SWCNT)-based soft thermal sensors
6.3.4 Thermoelectric biosensor (lab-on-a-chip)
6.4 Applications of thermal biosensors for virus detection
6.5 Conclusions
References
CH007.pdf
Chapter 7 Magnetic biosensors for virus detection
7.1 Introduction
7.2 Magnetic biosensors
7.2.1 Magnetoresistive biosensors
7.2.2 Inductive biosensors
7.2.3 SQUID biosensors
7.2.4 Optomagnetic biosensors
7.2.5 NMR biosensor
7.2.6 Ferromagnetic biosensors
7.2.7 Additional readout techniques
7.3 Latest findings in the field of magnetic biosensors and virus detection
7.3.1 Coronavirus
7.3.2 Hepatitis
7.3.3 Human immunodeficiency virus
7.3.4 Ebola
7.3.5 Zika
7.3.6 Norovirus
7.3.7 Influenza virus
7.4 Conclusions and future perspectives
References
CH008.pdf
Chapter 8 Micromechanical biosensors for virus detection
8.1 Fundamentals of micromechanical biosensors and actuators
8.1.1 Micro-nanomechanical sensors
8.1.2 Cantilever-based micromechanical biosensors
8.1.3 Acoustic wave and piezoelectric micromechanical biosensors
8.1.4 Surface stress-based biosensors
8.2 Virus detection using micromechanical biosensors
8.2.1 Coronavirus
8.2.2 Human immunodeficiency virus
8.2.3 Hepatitis
8.2.4 Ebola
8.2.5 Zika virus
8.2.6 Norovirus
8.2.7 Influenza
8.3 Conclusions and future perspectives
References