Advanced bioelectronics platform for in-sensor computing
- Reference number
- IS24-0162
- Project leader
- Fabiano, Simone
- Start and end dates
- 250101-271231
- Amount granted
- 4 900 000 SEK
- Administrative organization
- Linköping University
- Research area
- Materials Science and Technology
Summary
The proposal aims to advance bioelectronics by developing core technologies for multi-modal in-sensor computing that are aligned with the strategic research technology fields outlined by NRF and SSF. The objectives include enhancing biosensors and processors, integrating in-sensor computing, and promoting international collaboration between Korea and Sweden. The research focuses on cutting-edge biotechnology, necessitating the development of core technologies and fostering international exchange to maintain a competitive edge. The consortium, comprising leading academics from Linköping University and Seoul National University, aims to establish a hub for the bioelectronics industry. Key research components include optimizing processing for high-performance organic mixed ionic electronic conductors, controlling noise, optimizing device structure for organic electrochemical transistor biosensors, and enhancing organic electrochemical neurons. Furthermore, the project aims to develop core technologies for material processing and molecular interaction tunability, create highly sensitive biosensors based on stochastic resonance, and achieve high-density integration through screen printing and monolithic integration techniques. Additionally, the proposal seeks to establish a robust global collaborative network for academic exchange between Korea and Sweden, including the formation of an academic exchange unit and a joint research network.
Popular science description
This project aims to revolutionize healthcare by developing an advanced bioelectronics platform for real-time health monitoring and diagnostics. It focuses on high-performance biosensors and processors, integrating them for data processing. Leveraging in-sensor computing and organic electrochemical transistors, it enhances biosensor performance for ultra-sensitive biomarker detection. Additionally, it advances core technologies aligned with NRF and SSF strategic research fields, optimizing processing and device structure. The consortium of leading academics from Linköping University and Seoul National University aims to establish a bioelectronics industry hub. Collaboration fosters innovation, aiming for personalized medicine and improved healthcare outcomes through real-time biomarker monitoring. International cooperation between Korea and Sweden strengthens a global academic exchange network.