Unser interdisziplinäres Team aus Physikern, Chemikern, Biologen und Elektrotechnikern erforscht und entwickelt funktionale Systeme aus biologischen und elektronischen Komponenten.
Tissue-like interfacing of planar electrochemical organic neuromorphic devices
Our colleagues from IBI-3, RWTH Aachen and colleagues from Polytechnique Montréal, Canada have published (16.07.2024) a paper in Neuromorphic Computing and Engineering. The paper examines the behavior of biogel-based organic electrochemical transistors (OECTs) using PEDOT:PSS as the channel and gate material and investigates the impact of electrolyte viscosity and cation diffusivity on short-term plasticity, as well as the effect of neurotransmitter-mediated long-term plasticity.
Toward the Next Generation of Neural Iontronic Interfaces
Our colleagues Csaba Forro, Simon Musall, Viviana Ricon Montes, Andreas Offenhäusser, Francesca Santoro and other researchers at RWTH Aachen University, published a perspective review paper on the development of neural interfaces.
An organic brain-inspired platform with neurotransmitter closed-loop control, actuation and reinforcement learning
Our colleagues have published a paper in Materials Horizons /Bruno U., Rana D., Ausilio C., Mariano A., Bettucci O., Musall S., Lubrano C. and Santoro F., Mater. Horiz., 2024, Advance Article, https://doi.org/10.1039/D3MH02202A/ , which was selected as a part of the themed collection: Memristors and Neuromorphic Systems . In this manuscript a brain-inspired closed-loop system has been demonstrated for the accomplishment of motor control and actuation tasks, through a learning process mediated by a neurotransmitter.
Our colleagues from IBI-3, RWTH Aachen and colleagues from Polytechnique Montréal, Canada have published (16.07.2024) a paper in Neuromorphic Computing and Engineering. The paper examines the behavior of biogel-based organic electrochemical transistors (OECTs) using PEDOT:PSS as the channel and gate material and investigates the impact of electrolyte viscosity and cation diffusivity on short-term plasticity, as well as the effect of neurotransmitter-mediated long-term plasticity.