NEUREKA  Publications

  • Bettamin, L., Mathieu, F., Marty, F. H., Blatche, M. C., Gonzalez‐Dunia, D., Suberbielle, E., & Larrieu, G. Real‐Time and High‐Resolution Monitoring of Neuronal Electrical Activity and pH Variations Based on the Co‐Integration of Nanoelectrodes and Chem‐FinFETs. Small, 2024; 2309055. [Link]
  • Muguet, I., Maziz, A., Mathieu, F., Mazenq, L., & Larrieu, G. Combining PEDOT: PSS Polymer Coating with Metallic 3D Nanowires Electrodes to Achieve High Electrochemical Performances for Neuronal Interfacing Applications. Advanced Materials, 2023; 35(39), 2302472. [Link]; [Cover Link]
  • Di Palma V, Pianalto A, Perego M, Tallarida G, Codegoni D, Fanciulli M. Plasma-Assisted Atomic Layer Deposition of IrO2 for Neuroelectronics. Nanomaterials. 2023; 13(6):976. [Link]
  • Pagkalos M, Chavlis S, Poirazi P. Introducing the Dendrify framework for incorporating dendrites to spiking neural networks. Nature Communications, 14(131), January 2023 | doi: 10.1038/s41467-022-35747-8 [Link]
  • Bilash O, Chavlis S, Johnson CD, Poirazi P, Basu J. Lateral entorhinal cortex inputs modulate hippocampal dendritic excitability by recruiting a local disinhibitory microcircuit. Cell Reports, 42(1), January 2023 | doi: 10.1016/j.celrep.2022.111962 [Link]


Relevant Publications supported by NEUREKA funding


  • Chowdhury A, Luchetti A, Fernandes G, Almeida Filho D, Kastellakis G, Tzilivaki A, Ramirez EM, Tran MY, Poirazi P, Silva AJ. A locus coeruleus-dorsal CA1 dopaminergic circuit modulates memory linking. Neuron, Aug 2022 | doi: 10.1016/j.neuron.2022.08.001 [Link]
  • Pagkalos M, Chavlis S, Poirazi P. Dendrify: a new framework for seamless incorporation of dendrites in spiking neural networks. bioRxiv, May 2022 | doi: 10.1101/2022.05.03.490412 [Link]
  • Dendritic contributions to biological and artificial computations. Edited by Poirazi P, Schiller J. Neuroscience, 489, May 2022 [Link]
  • Lecestre A, Martin M, Cristiano F, Baron T, Larrieu G. Large-Scale Monolithic Fabrication of III–V Vertical Nanowires on a Standard Si (100) Microelectronic Substrate. ACS omega, 7(7), February 2022 | doi: 10.1021/acsomega.1c05876 [Link]
  • Bilash OM, Chavlis S, Poirazi P, Basu J. Lateral entorhinal cortex inputs modulate hippocampal dendritic excitability by recruiting a local disinhibitory microcircuit. bioRxiv, January 2022 | doi: 10.1101/2022.01.13.476247 [Link]
  • Sehgal M, Almeida Filho D, Martin S, Mejia ID, Kastellakis G, Kim S, Lee J, Pekcan A, Huang S, Lavi A, Do Heo W, Poirazi P, Trachtenberg JT, Silva AJ. Co-allocation to overlapping dendritic branches in the retrosplenial cortex integrates contextual memories across time. bioRxiv, January 2022 | doi: 10.1101/2022.05.03.490412 [Link]



  • Pinitas K, Chavlis S, Poirazi P. Dendritic Self-Organizing Maps for Continual Learning. arXivLabs, Oct 2021 | arXiv:2110.13611 [Link]
  • Chavlis S, Poirazi P. Drawing inspiration from biological dendrites to empower artificial neural networks. Current Opinion in Neurobiology, 70, October 2021 | doi: 10.1016/j.conb.2021.04.007 [Link]
  • Yuan X, Hierlemann A, Frey U. Extracellular Recording of Entire Neural Networks Using a Dual-Mode Microelectrode Array With 19,584 Electrodes and High SNR. IEEE Journal of Solid-State Circuits, 56(8), August 2021 | doi: 10.1109/JSSC.2021.3066043 [Link]



  • Geiller T, Vancura V, Terada S, Troullinou E, Chavlis S, Tsagkatakis G, Tsakalides P, Ócsai K, Poirazi P, Rózsa BJ, Losonczy A. Large-Scale 3D Two-Photon Imaging of Molecularly Identified CA1 Interneuron Dynamics in Behaving Mice. Neuron108(5), December 2020 | doi: 10.1016/j.neuron.2020.09.013 [Link]