B.E.S.T. Research Group is committed to making meaningful advancements in science and engineering, all while pushing the boundaries of our understanding of the biological world. We maintain an inclusive and collaborative environment, empowering our team members to grow and innovate as they drive our collective mission forward. As a dedicated, ambitious team of researchers and engineers hailing from diverse backgrounds, B.E.S.T. is committed to the following research areas:
Organic electrochemical transistors (OECTs)
At B.E.S.T, our primary focus lies in the advancement and clinical application of OECTs, which play a pivotal role in our research endeavors. Our main goal is to explore innovative approaches for seamlessly integrating organic elements into biological systems, opening up possibilities ranging from real-time biosensing to the precise control of soft robotic systems.
Our commitment is to drive a healthcare revolution by creating exceptionally sensitive, precise, and dependable biosensors capable of detecting a diverse range of biomarkers. Our ultimate aim is to minimize diagnostic uncertainties and usher in an era of personalized medicine through the utilization of non-invasive and minimally invasive techniques.
Soft Bioelectronics
Our research focuses on advancing the field of highly flexible and conforming bioelectronics, catering to diverse applications such as wearables, implantable devices, and onboard medical systems. By bridging materials science and biocompatibility, we strive to uncover innovative approaches that elevate the efficiency and durability of soft bioelectronic devices.
Leveraging the innate properties of biological substances, we develop new biomaterials with unique applications in areas such as tissue engineering, drug delivery, and personalized treatments. Our focus encompasses both porous bio-materials and conducting polymers to enhance the versatility and performance of these materials across a range of medical applications.
Inspired by the processing capabilities of the human brain, our neuromorphic research aims to create artificial systems that can mimic neuronal functions and processing methods. This research area is driven by the potential societal benefits of advanced machine learning and more efficient artificial intelligence systems.
Address: 241 Daxue Road, Jinping District, Shantou, Guangdong Province, China
©Guangdong Technion-Israel Institute of Technology 2018
粤ICP备17036470号,版权所有©广东以色列理工学院
