InBrain Electronics Lab

Research

Our research is focused on bioelectronic interfaces for minimally-invasive inbrain applications. We are developing and testing innovative thin-film flexible and injectable electronics primarily for the investigation and treatment of epilepsy and neurodegenerative diseases. Newer applications also involve visual prosthetics.

Projects

Minimally-Invasive Ultrasound-Fascilitated Drug-Delivery Through the Blood-Brain Barrier
In collaboration with the MITUS Lab at TU Delft and the Cea Group at Yale, we are working to create and test inbrain solutions for drug delivery to treat neurological conditions.

Biocompatible Conductive Polymers for InBrain Electronics Applications
In collaboration with the Laboratory of Organic Electronics at Linköping University, we are developing inbrain applications for a novel optically polymerized conductive polymer.

Multi-Analyte Chemical Sensing Utilizing a Microfluidic Model with an In-built Organic ElectroChemical Transistors (OECTs)
We are developing an organic chemical sensing platform to measure multiple analytes simultaneously.

Fabrication of Novel OECT Geometries for Optimal Transconductance
We are fabricating creative geometrical vertical OECTs to minimize channel length and optimize conductivity.

Highlighted Publications

All

2025

A wireless subdural-contained brain computer interface with 65,536 electrodes and 1,024 channels
A wireless subdural-contained brain–computer interface with 65,536 electrodes and 1,024 channels
Taesung Jung, Nanyu Zeng, Jason D. Fabbri, Guy Eichler, Zhe Li, ..., Joshua Jacobs, Brett Youngerman, R. James Cotton, Andreas Tolias, Kenneth L. Shepard
Nature Electronics  ·  08 Dec 2025  ·  doi:10.1038/s41928-025-01509-9
Paper
flexible-electronics neural-implants
Visible Light Driven Aqueous Polymerization Enables in Situ Formation of Biocompatible, High Performance Organic Mixed Conductors for Bioelectronics
Visible‐Light‐Driven Aqueous Polymerization Enables in Situ Formation of Biocompatible, High‐Performance Organic Mixed Conductors for Bioelectronics
Tobias Abrahamsson, Fredrik Ek, Rémy Cornuéjols, Donghak Byun, Marios Savvakis, ..., Daniel T. Simon, Magnus Berggren, Ilke Uguz, Roger Olsson, Xenofon Strakosas
Angewandte Chemie  ·  10 Nov 2025  ·  doi:10.1002/ange.202517897
Paper
organic-electronics photopolymerization

2024

Bioelectronic interfaces of organic electrochemical transistors
Bioelectronic interfaces of organic electrochemical transistors
Abdulelah Saleh, Anil Koklu, Ilke Uguz, Anna-Maria Pappa, Sahika Inal
Nature Reviews Bioengineering  ·  30 Apr 2024  ·  doi:10.1038/s44222-024-00180-7
Paper
organic-electronics oects