SEAMLESS AND FUNCTIONAL BIOINTERFACES WITH HYBRID NANOMATERIALS AND NANOELECTRONICS
As a researcher with a passion for pushing the boundaries of science, I am dedicated to building a better future through the power of bioelectronic devices. I am constantly seeking new and innovative ways to interface the brain and heart, with the goal of unlocking the secrets of the human body and mind. My portfolio showcases the projects that have brought me closer to this vision.
1
NANOELECTRONICS AND NANOBIOINTERFACES
Excitonic devices for label-free optical recording of bioelectric signals and
wireless injectable nanodevices for NIR nongenetic stimulation
​
As the lead researcher on this project, I was responsible for developing cutting-edge technologies that allowed for the seamless integration of bioelectronic devices with the human body. By leveraging my expertise in physics, nanotechnology, and material science, I was able to achieve unprecedented levels of precision and accuracy.
2
FLEXIBLE NANOBIOSENSORS
Implantable flexible neural probes for neurochemical and electrophysiological recording in neurodegenerative diseases
In this project, I worked closely with a team of talented scientists and engineers to develop a groundbreaking new device that could monitor and regulate heart rhythms in real time. By combining state-of-the-art sensors with advanced algorithms, we were able to achieve unparalleled levels of performance and accuracy.
3
LIVING ELECTRONICS AND NANO-FUNCTIONAL MATERIALS
Nano-functional hydrogels and scaffolds for biohybrid regenerative devices
As one of the key researchers on this project, I was responsible for developing the core technologies that allowed for the seamless integration of bioelectronic devices with the human brain. By leveraging my deep understanding of neuroscience and cutting-edge engineering techniques, I was able to push the boundaries of what was possible and unlock new insights into the workings of the mind.