Chee Keong Tee
Postgraduate:
Main Appointment:
Joint Appointments:
Research Fields:
Research Areas:
Research Fields:
- STEMM – Science, Technology, Engineering, Mathematics, Medical Sciences
Research Keywords:
- Sensors
- AI
- Machine Learning
- Robotics
- Healthcare
Current Appointments:
Brief Description of Research:
Nature-inspired Sensorware
Our group aims to develop core platform technologies that enables Embodied Artificial Intelligence and that are Sustainable.
Nature ensures survival by endowing complex living organisms with distinct skin sensors that have very high complexity. These structures enable skin sensors, for example, to be highly strain sensitive, and communicate in real time pertinent environment information. Endowing artificial systems with cutting-edge hapto-tactile capabilities could impact several areas such as next generation human-like robotic assistants, immersive virtual reality, smarter human-machine interfaces, wearable technologies and life-like prosthetics. The ability to self-repair in these devices will also be critical to enable greater environment sustainability as we continue to utilise the advances such technologies offer the human race.
Total Number of Publications:
Five Representative Publications:
A transparent, self-healing and high-k dielectric for low-field-emission stretchable optoelectronics, Nature Materials, 2020
A neuro-inspired artificial peripheral nervous system for scalable electronic skins, Science Robotics, 2019 (Selected as Cover)
Self-healing Electronic skins for Aquatic Environments, Nature Electronics, 2019 (Selected as Cover)
Soft Electronically Functional Polymeric Composite Materials for a Flexible and Stretchable Digital Future, Advanced Materials, 2018.
Self-Healing Electronic Materials for a Smart and Sustainable Future, ACS Appl. Mater. & Interfaces, 2018
My Research Videos:
Top 5 Publications:
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Journals Published:
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Chee Keong Tee
Appointments
Education
Research Areas
- Sensors
- AI
- Machine Learning
- Robotics
- Healthcare
Research Description
Nature-inspired Sensorware
Our group aims to develop core platform technologies that enables Embodied Artificial Intelligence and that are Sustainable.
Nature ensures survival by endowing complex living organisms with distinct skin sensors that have very high complexity. These structures enable skin sensors, for example, to be highly strain sensitive, and communicate in real time pertinent environment information. Endowing artificial systems with cutting-edge hapto-tactile capabilities could impact several areas such as next generation human-like robotic assistants, immersive virtual reality, smarter human-machine interfaces, wearable technologies and life-like prosthetics. The ability to self-repair in these devices will also be critical to enable greater environment sustainability as we continue to utilise the advances such technologies offer the human race.
Research Videos
Selected Publications
A transparent, self-healing and high-k dielectric for low-field-emission stretchable optoelectronics, Nature Materials, 2020
A neuro-inspired artificial peripheral nervous system for scalable electronic skins, Science Robotics, 2019 (Selected as Cover)
Self-healing Electronic skins for Aquatic Environments, Nature Electronics, 2019 (Selected as Cover)
Soft Electronically Functional Polymeric Composite Materials for a Flexible and Stretchable Digital Future, Advanced Materials, 2018.
Self-Healing Electronic Materials for a Smart and Sustainable Future, ACS Appl. Mater. & Interfaces, 2018