Fundamentals of Sensor Technology
-10%
portes grátis
Fundamentals of Sensor Technology
Principles and Novel Designs
Altintas, Zeynep; Barhoum, Ahmed
Elsevier Science Publishing Co Inc
05/2023
898
Mole
Inglês
9780323884310
15 a 20 dias
Descrição não disponível.
Part I. Sensing principles and basic design
1. Historical development of sensing technology
2. Sensor principles and basic designs
3. Fundamentals of Biological Recognition Elements
Part II. Sensing techniques
4. Lab-on-a-chip sensors
5. Potentiometric sensors
6. Amperometric sensors
7. Fluorescent sensors
8. Surface plasmon resonance sensors
9. Ellipsometric biosensors
10. Impedimetric (bio)sensors
11. Nanostructured photoelectrochemical biosensors
12. Impedimetric biosensors based on nucleic acids
Part III. Sensing materials
13. Metal nanoparticles for sensing applications
14. Carbon nanomaterials for sensing applications
15. Polymer nanocomposites for sensing applications
16. Quantum dots for sensing applications
17. Molecularly imprinted polymer sensors: A bridge to advanced diagnostics
18. Direct glucose fuel cell towards a self-powered point-of-care nanobiosensor
19. Metal chalcogenides for sensing applications
20. Silica nanoparticles for sensing applications
21. Chromo-fluorogenic chemosensory for sensing applications
22. Gold nanoparticle-based biosensing applications
23. Advances in fiber sensing devices decorated with functionalized nanomaterials
Part IV. Recent topics
24. Screen-printed electrochemical sensor platforms
25. Biodegradable sensor platforms
26. Disposable paper-based sensors
1. Historical development of sensing technology
2. Sensor principles and basic designs
3. Fundamentals of Biological Recognition Elements
Part II. Sensing techniques
4. Lab-on-a-chip sensors
5. Potentiometric sensors
6. Amperometric sensors
7. Fluorescent sensors
8. Surface plasmon resonance sensors
9. Ellipsometric biosensors
10. Impedimetric (bio)sensors
11. Nanostructured photoelectrochemical biosensors
12. Impedimetric biosensors based on nucleic acids
Part III. Sensing materials
13. Metal nanoparticles for sensing applications
14. Carbon nanomaterials for sensing applications
15. Polymer nanocomposites for sensing applications
16. Quantum dots for sensing applications
17. Molecularly imprinted polymer sensors: A bridge to advanced diagnostics
18. Direct glucose fuel cell towards a self-powered point-of-care nanobiosensor
19. Metal chalcogenides for sensing applications
20. Silica nanoparticles for sensing applications
21. Chromo-fluorogenic chemosensory for sensing applications
22. Gold nanoparticle-based biosensing applications
23. Advances in fiber sensing devices decorated with functionalized nanomaterials
Part IV. Recent topics
24. Screen-printed electrochemical sensor platforms
25. Biodegradable sensor platforms
26. Disposable paper-based sensors
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
2D; Amperometric sensors; Antibody; Aptamer; Bioconjugation; Biodegradable biomedical sensors; Biodegradable environmental sensor; Biodegradable food sensors; Biodegradable sensors; Bioimaging contrast agents; Biomedical diagnosis; Biomolecules detection; Biorecognition; Biosensing strategies; Biosensor; Biosensors; Cancer biomarkers; Cancer; Carbon black; Carbon dots; Carbon nanodiamonds; Carbon nanofibers; Carbon nanohorns; Carbon nanotubes; Cell; Cell-based biosensing; Characterization; Chemical sensors; Chemiluminescence; Chromogenic; Colorimetric sensor; Commercialization; CRISPR; Diagnosis; Diagnostics; Disposable; DNA; Electrochemical impedance spectroscopy (EIS)Electrodes; Electrochemical impedance spectroscopy; Electrochemical MIP sensors; Electrochemical nanobiosensors; Electrochemical sensor; Electrochemical; Electrochemistry; Ellipsometric biosensors; Ellipsometry; Environmental monitoring; Enzyme; Fluorescence polarization; Fluorescence; Fluorescent sensor; Fluorogenic synthetic sensors; Fluorophores; Food quality monitoring; Food safety; FRET; Fuel cell; Fullerenes; Glucose fuel; Gold nanoparticles; Graphene; Grating; Health monitoring; Historical evolution of sensors; Imaging ellipsometry; Immunosensors; Impedimetric biosensor; Impedimetric sensors; Infectious diseases; Ion-selective electrodes; ISFET; Lab-on-a-chip; LAPS; LNA; Localized SPR (LSPR)SPR imaging (SPRi)Surface functionalization; Luminescence; Mass sensitive; Mesoporous silica; Metal chalcogenides; Microfluidic devices; Microfluidics; MIP sensors; miRNA; Molecular imprinting; Molecularly imprinted polymers (MIPs)Molecularly imprinted polymers; Multimetallic nanomaterials; Nanobiosensors; Nanobiotechnology; Nanochemistry; Nanocomposite; Nanomaterial; Nanomaterials; Nonporous silica; Nucleic acid biosensing; Nucleic acid biosensors; Nucleic acid; Nucleic acids; Optical fiber sensor; Optical fiber; Optical MIP sensors; Optical sensor; Optical; p-n junctions; Paper-based sensors; Peptide nucleic acids; Peptide; Phosphorescence; Photonic crystal fiber; Plasmonic nanoparticles; Plasmonic; PNA; Point-of-care diagnostics; Polymers; Portable sensors; Potentiometric sensors; Potentiometry; Quantum dot synthesis; Quantum dots; Quenching; Screen-printed technology; Semiconductors; Sensing of biomolecules and ions; Sensor applications of carbon nanomaterials; Sensor array; Sensor; Sensors classification; Sensors; Silica nanomaterials; Spectroscopic ellipsometry; Spectroscopy; Surface plasmon resonance (SPR)Synthesis; Temporary applications; Thermal; Total internal reflection ellipsometry; Transduction techniques; Transition metal chalcogenides; Trends in receptor selection; Voltammetric sensors; Water and environmental monitoring; Wearable sensor; ZNA; Z-scheme
Part I. Sensing principles and basic design
1. Historical development of sensing technology
2. Sensor principles and basic designs
3. Fundamentals of Biological Recognition Elements
Part II. Sensing techniques
4. Lab-on-a-chip sensors
5. Potentiometric sensors
6. Amperometric sensors
7. Fluorescent sensors
8. Surface plasmon resonance sensors
9. Ellipsometric biosensors
10. Impedimetric (bio)sensors
11. Nanostructured photoelectrochemical biosensors
12. Impedimetric biosensors based on nucleic acids
Part III. Sensing materials
13. Metal nanoparticles for sensing applications
14. Carbon nanomaterials for sensing applications
15. Polymer nanocomposites for sensing applications
16. Quantum dots for sensing applications
17. Molecularly imprinted polymer sensors: A bridge to advanced diagnostics
18. Direct glucose fuel cell towards a self-powered point-of-care nanobiosensor
19. Metal chalcogenides for sensing applications
20. Silica nanoparticles for sensing applications
21. Chromo-fluorogenic chemosensory for sensing applications
22. Gold nanoparticle-based biosensing applications
23. Advances in fiber sensing devices decorated with functionalized nanomaterials
Part IV. Recent topics
24. Screen-printed electrochemical sensor platforms
25. Biodegradable sensor platforms
26. Disposable paper-based sensors
1. Historical development of sensing technology
2. Sensor principles and basic designs
3. Fundamentals of Biological Recognition Elements
Part II. Sensing techniques
4. Lab-on-a-chip sensors
5. Potentiometric sensors
6. Amperometric sensors
7. Fluorescent sensors
8. Surface plasmon resonance sensors
9. Ellipsometric biosensors
10. Impedimetric (bio)sensors
11. Nanostructured photoelectrochemical biosensors
12. Impedimetric biosensors based on nucleic acids
Part III. Sensing materials
13. Metal nanoparticles for sensing applications
14. Carbon nanomaterials for sensing applications
15. Polymer nanocomposites for sensing applications
16. Quantum dots for sensing applications
17. Molecularly imprinted polymer sensors: A bridge to advanced diagnostics
18. Direct glucose fuel cell towards a self-powered point-of-care nanobiosensor
19. Metal chalcogenides for sensing applications
20. Silica nanoparticles for sensing applications
21. Chromo-fluorogenic chemosensory for sensing applications
22. Gold nanoparticle-based biosensing applications
23. Advances in fiber sensing devices decorated with functionalized nanomaterials
Part IV. Recent topics
24. Screen-printed electrochemical sensor platforms
25. Biodegradable sensor platforms
26. Disposable paper-based sensors
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
2D; Amperometric sensors; Antibody; Aptamer; Bioconjugation; Biodegradable biomedical sensors; Biodegradable environmental sensor; Biodegradable food sensors; Biodegradable sensors; Bioimaging contrast agents; Biomedical diagnosis; Biomolecules detection; Biorecognition; Biosensing strategies; Biosensor; Biosensors; Cancer biomarkers; Cancer; Carbon black; Carbon dots; Carbon nanodiamonds; Carbon nanofibers; Carbon nanohorns; Carbon nanotubes; Cell; Cell-based biosensing; Characterization; Chemical sensors; Chemiluminescence; Chromogenic; Colorimetric sensor; Commercialization; CRISPR; Diagnosis; Diagnostics; Disposable; DNA; Electrochemical impedance spectroscopy (EIS)Electrodes; Electrochemical impedance spectroscopy; Electrochemical MIP sensors; Electrochemical nanobiosensors; Electrochemical sensor; Electrochemical; Electrochemistry; Ellipsometric biosensors; Ellipsometry; Environmental monitoring; Enzyme; Fluorescence polarization; Fluorescence; Fluorescent sensor; Fluorogenic synthetic sensors; Fluorophores; Food quality monitoring; Food safety; FRET; Fuel cell; Fullerenes; Glucose fuel; Gold nanoparticles; Graphene; Grating; Health monitoring; Historical evolution of sensors; Imaging ellipsometry; Immunosensors; Impedimetric biosensor; Impedimetric sensors; Infectious diseases; Ion-selective electrodes; ISFET; Lab-on-a-chip; LAPS; LNA; Localized SPR (LSPR)SPR imaging (SPRi)Surface functionalization; Luminescence; Mass sensitive; Mesoporous silica; Metal chalcogenides; Microfluidic devices; Microfluidics; MIP sensors; miRNA; Molecular imprinting; Molecularly imprinted polymers (MIPs)Molecularly imprinted polymers; Multimetallic nanomaterials; Nanobiosensors; Nanobiotechnology; Nanochemistry; Nanocomposite; Nanomaterial; Nanomaterials; Nonporous silica; Nucleic acid biosensing; Nucleic acid biosensors; Nucleic acid; Nucleic acids; Optical fiber sensor; Optical fiber; Optical MIP sensors; Optical sensor; Optical; p-n junctions; Paper-based sensors; Peptide nucleic acids; Peptide; Phosphorescence; Photonic crystal fiber; Plasmonic nanoparticles; Plasmonic; PNA; Point-of-care diagnostics; Polymers; Portable sensors; Potentiometric sensors; Potentiometry; Quantum dot synthesis; Quantum dots; Quenching; Screen-printed technology; Semiconductors; Sensing of biomolecules and ions; Sensor applications of carbon nanomaterials; Sensor array; Sensor; Sensors classification; Sensors; Silica nanomaterials; Spectroscopic ellipsometry; Spectroscopy; Surface plasmon resonance (SPR)Synthesis; Temporary applications; Thermal; Total internal reflection ellipsometry; Transduction techniques; Transition metal chalcogenides; Trends in receptor selection; Voltammetric sensors; Water and environmental monitoring; Wearable sensor; ZNA; Z-scheme
