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Simulating the brain: young Utrecht researcher theoretically shows that neuronal spiking can emerge from artificial fluidic circuits. #neuromorphiccomputing Published today in Physical Review Letters Pathways to Sustainability UU journals.aps.org/prl/abstract/1…

Luister de nieuwe aflevering van Kennis & co. Een met water en zout gebouwde computer zou weleens energiezuiniger kunnen zijn dan huidige computers. TimKamsma van de Utrecht University die met deze uitdaging pioniert spreekt met Jop de Vrieze en Bouwe van Straten. nporadio1.nl/podcasts/kenni…

🧠 What if we could build computers that use energy as efficiently as our own brains? PhD student TimKamsma studies #neuromorphiccomputing and talks about his research in the latest edition of the NTR Wetenschap podcast Kennis & Co (in Dutch). nporadio1.nl/podcasts/kenni…

Part of iopscience.iop.org/journal/2634-4…, TimKamsma, Else Rossing and colleagues at Faculty of Science, Utrecht University (Utrecht University) investigate fluidic advanced neuronal-like spiking, supporting the exploration of aqueous iontronics as an interesting platform for neuromorphic circuits, in iopscience.iop.org/article/10.108…

Researchers unveil an aqueous memristor mimicking the brain’s synaptic plasticity, representing a considerable step toward brain-inspired computing devices. In Phys.org: ow.ly/cQ6W50RvXUX In PNAS: ow.ly/5hC150RvXUY

Chemically regulated conical channel synapse for neuromorphic and sensing applications, T. M. Kamsma, M. S. Klop, W. Q. Boon, C. Spitoni, B. Rueckauer, and R. van Roij #Neuroscience #SoftMatter go.aps.org/3XAWujq