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The history of biosensors began in 1962 when Leland C. Clark created enzyme electrodes. Since then, biosensors have advanced significantly thanks to concurrent advances in some disciplines, including biology, chemistry, material science, electronics, physics, and VLSI. Biosensors that are smaller, more sensitive, and more dependable are now possible thanks to advances in science and technology. It is still a technological challenge to find cost-efficient, sophisticated, trustworthy, robust biosensors that can be utilised to detect many types of biomolecules. In contrast to previous types of biosensors, the proposed AlGaN/GaN High Electron Mobility Transistors (HEMTs) show outstanding potential to become the biosensor platform of the future. Due to their innate characteristics, such as chemically stable bulk and surface properties and the availability of high-density two-dimensional electron gas (2DEG) at the hetero-interface, which enables highly sensitive detection of surface charge-related phenomena, these devices outperform their silicon counterparts. Only the drain current variations relevant to biomolecule immobilization are seen using a floating gate design.
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Split Gate JLFET for Detection of Biological Molecule
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LAP LAMBERT Academic Publishing Mai 2023, 2023
ISBN 10: 620616280X
ISBN 13: 9786206162803
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Taschenbuch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -The history of biosensors began in 1962 when Leland C. Clark created enzyme electrodes. Since then, biosensors have advanced significantly thanks to concurrent advances in some disciplines, including biology, chemistry, material science, electronics, physics, and VLSI. Biosensors that are smaller, more sensitive, and more dependable are now possible thanks to advances in science and technology. It is still a technological challenge to find cost-efficient, sophisticated, trustworthy, robust biosensors that can be utilised to detect many types of biomolecules. In contrast to previous types of biosensors, the proposed AlGaN/GaN High Electron Mobility Transistors (HEMTs) show outstanding potential to become the biosensor platform of the future. Due to their innate characteristics, such as chemically stable bulk and surface properties and the availability of high-density two-dimensional electron gas (2DEG) at the hetero-interface, which enables highly sensitive detection of surface charge-related phenomena, these devices outperform their silicon counterparts. Only the drain current variations relevant to biomolecule immobilization are seen using a floating gate design. 68 pp. Englisch. Seller Inventory # 9786206162803
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Split Gate JLFET for Detection of Biological Molecule
Published by
LAP LAMBERT Academic Publishing, 2023
ISBN 10: 620616280X
ISBN 13: 9786206162803
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Split Gate JLFET for Detection of Biological Molecule
Published by
LAP LAMBERT Academic Publishing, 2023
ISBN 10: 620616280X
ISBN 13: 9786206162803
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Taschenbuch. Condition: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - The history of biosensors began in 1962 when Leland C. Clark created enzyme electrodes. Since then, biosensors have advanced significantly thanks to concurrent advances in some disciplines, including biology, chemistry, material science, electronics, physics, and VLSI. Biosensors that are smaller, more sensitive, and more dependable are now possible thanks to advances in science and technology. It is still a technological challenge to find cost-efficient, sophisticated, trustworthy, robust biosensors that can be utilised to detect many types of biomolecules. In contrast to previous types of biosensors, the proposed AlGaN/GaN High Electron Mobility Transistors (HEMTs) show outstanding potential to become the biosensor platform of the future. Due to their innate characteristics, such as chemically stable bulk and surface properties and the availability of high-density two-dimensional electron gas (2DEG) at the hetero-interface, which enables highly sensitive detection of surface charge-related phenomena, these devices outperform their silicon counterparts. Only the drain current variations relevant to biomolecule immobilization are seen using a floating gate design. Seller Inventory # 9786206162803
Quantity: 1 available
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Split Gate JLFET for Detection of Biological Molecule
Published by
LAP LAMBERT Academic Publishing, 2023
ISBN 10: 620616280X
ISBN 13: 9786206162803
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Split Gate JLFET for Detection of Biological Molecule
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Condition: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. The history of biosensors began in 1962 when Leland C. Clark created enzyme electrodes. Since then, biosensors have advanced significantly thanks to concurrent advances in some disciplines, including biology, chemistry, material science, electronics, physic. Seller Inventory # 888334854
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Split Gate JLFET for Detection of Biological Molecule
Published by
LAP LAMBERT Academic Publishing, 2023
ISBN 10: 620616280X
ISBN 13: 9786206162803
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Split Gate JLFET for Detection of Biological Molecule
Published by
LAP LAMBERT Academic Publishing Mai 2023, 2023
ISBN 10: 620616280X
ISBN 13: 9786206162803
New
Taschenbuch
Seller: buchversandmimpf2000, Emtmannsberg, BAYE, Germany
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Taschenbuch. Condition: Neu. Neuware -The history of biosensors began in 1962 when Leland C. Clark created enzyme electrodes. Since then, biosensors have advanced significantly thanks to concurrent advances in some disciplines, including biology, chemistry, material science, electronics, physics, and VLSI. Biosensors that are smaller, more sensitive, and more dependable are now possible thanks to advances in science and technology. It is still a technological challenge to find cost-efficient, sophisticated, trustworthy, robust biosensors that can be utilised to detect many types of biomolecules. In contrast to previous types of biosensors, the proposed AlGaN/GaN High Electron Mobility Transistors (HEMTs) show outstanding potential to become the biosensor platform of the future. Due to their innate characteristics, such as chemically stable bulk and surface properties and the availability of high-density two-dimensional electron gas (2DEG) at the hetero-interface, which enables highly sensitive detection of surface charge-related phenomena, these devices outperform their silicon counterparts. Only the drain current variations relevant to biomolecule immobilization are seen using a floating gate design.Books on Demand GmbH, Überseering 33, 22297 Hamburg 68 pp. Englisch. Seller Inventory # 9786206162803
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