Electrochemical and Bioelectronic Interface Group (Yunlong Zhao Research Group)
Our research focuses on the rational design and manufacture of novel electrochemical energy storage devices, sensors, bioelectronics, and their integration into 2D on-chip and 3D soft systems for electrochemical and physiological interrogation, and applications in Sustainability, Future Electronics and Healthcare.
Welcome to the Electrochemical and Bioelectronic Interface Group (Group Photo, 2023)
Research area 1: Electrochemical energy storage and electrochemical interrogation.
Research area 2: Bioelectronics and physiological interrogation
Research area 3: Micro-power sources and bioelectronics integrated 3D soft system
Lab-on-a-chip platform for in-situ multimodal characterization and electrochemical testing of Li-CO2 batteries. Ref: Energy Environ. Sci. 16(2023): 3960.
Smart contact lens with transistor-based mesh sensor system for multifunctional physiological interrogation. Ref: Matter 4.3 (2021): 969-985.
Ampere-hour-scale soft-package potassium-ion hybrid capacitors enabling 6-minute fast-charging. Ref: Nature Communications, (2023) 14.6407.
Scalable ultrasmall nanowire 3D transistor probes for intracellular recording from primary neurons and cardiomyocytes Ref: Nature Nanotechnology 14,(2019) 783–790.
Bioinspired syringe-injectable neuron-like electronics. Ref: Nature Materials18, (2019): 510–517.
Rectifying interphase for preventing Li dendrite propagation in solid-state lithium battery Ref: Energy & Environmental Science, 16, (2023) 2167-2176.
A Highly integrated flexible photo-rechargeable system based on stable ultrahigh-rate quasi-solid-state micro-batteries and solar cells Ref: Energy Storage Materials, (2022) 51, 239.