Novel bio-electronic devices have a great potential for gathering biological information such as vital signs, cell behavior, protein and DNA molecule concentrations. The book presents concrete examples and shows that there are lots of sensing targets still remaining to be handled. Organic materials offer high sensitivity, flexibility and biocompatibility, and can be prepared by novel fabrication methods such as printing and coating at low cost. Part 1: OFET-based sensors. Part 2: Graphene-based materials and sensor device applications. Part 3: Applications of bio-sensing technologies, inkjet printing, tests for stroke monitoring, etc.
The book presents concrete examples and shows that there are lots of sensing targets still remaining to be handled.
The book presents concrete examples and shows that there are lots of sensing targets still remaining to be handled.
Table of Contents
- Organic Bioelectronic Transistors: From Fundamental Investigation of Bio-Interfaces to Highly Performing Biosensors
- Biosensing with Electrolyte Gated Organic Field Effect Transistors
- The Organic Charge-Modulated Field-Effect Transistor: a Flexible Platform for Application in Biomedical Analyses
- Graphene Based Field Effect Transistors for Biosensing: Importance of Surface Modification
- Graphene as an Organic and Bioelectronic Material
- Graphene based Materials for Bioelectronics and Healthcare
- Inkjet Printing for Biosensors and Bioelectronics
- Rapid Point-of-Care-Tests for Stroke Monitoring
