Electrochemical nano-bio-sensing and bio/CMOS interfaces
Frequency
Every year
Summary
Main aim of the course is to introduce, in designing of modern wearable and implantable devices, the new concept of co-design three system' layers: Bio for Specificity, Nano for Sensitivity, and CMOS for autonomy. Recent examples of devices realised for m-Health are presented and deeply discussed.
Content
1. Bio for Probes/Targets building blocks: Proteins and DNA
2. Bio for Probes/Targets interactions with DNA and Antibodies
3. Bio for Probes/Targets interactions with Oxidases and Cytochromes
4. Bio for Detection principles: Dna, Antobodies, Enzimes
5. Bio for Detection principles: Redox Reactions
6. Nano for Probes immobilization: Methods and Mechanisms
7. Nano for Probes layer quality: SPR, SEM, and AFM
8. Nano for Memristive Biosensors
9. Nano to prevent the Electron Transfer
10. Nano to enhance the Electron Transfer
11. CMOS for metabolite in fixed voltage
12. CMOS for metabolite in scanning voltage
13. CMOS for multi-metabolites monitoring
14. CMOS for DNA detection
15. CMOS for Applications in Animals and Humans Remote Telemetry
Keywords
Wearable Devices; Implantable Chips; mHealth; Nano-Bio-Technology; Carbon Nanotubes; Metallic Nanoparticles; Op Amp; Analog Design; Electrochemical Sensing; CMOS
Learning Prerequisites
Recommended courses
Classical mechanics; Geometrical optics; Electro-magnetism; ohm law on steady current and some theorems on alternate current; Laplace transforms
Assessment methods
by home-works
Resources
Bibliography
Bio/CMOS Interfaces and Co-Design, Sandro Carrara (author), Springer (Editor), 2011
Ressources en bibliothèque
Dans les plans d'études
- Nombre de places: 20
- Forme de l'examen: Rapport de TP (session libre)
- Matière examinée: Electrochemical nano-bio-sensing and bio/CMOS interfaces
- Cours: 15 Heure(s)
- Nombre de places: 20
- Forme de l'examen: Rapport de TP (session libre)
- Matière examinée: Electrochemical nano-bio-sensing and bio/CMOS interfaces
- Cours: 15 Heure(s)