The Neuronics Conference 2025 took place at the Research Center for Materials Nanoarchitectonics (MANA) from June 17 to 20.
Brain-inspired neuromorphic computing has emerged as a promising solution to overcome the computation bottlenecks in artificial intelligence (AI) applications. However, traditional CMOS technologies, which heavily relied on silicon, face significant challenges such as volatility and energy inefficiency. These obstacles have hindered the rapid progress in the field. Thankfully, recent developments in novel memory and memristive technologies, have revitalized the pursuit of efficient and high-performance neuromorphic computing systems.
This conference aimed to present the current status and cutting-edge advancements in the development of neuromorphic devices that emulate biological neural processes through device physics. A particular focus was placed on memristive technologies as a promising devices for implementing various neuromorphic functions, including artificial synapses, neurons, and dendrites. The different material platforms included conjugated polymers, hydrogels, nonmetal oxides, correlated oxides, transition metal oxides (TMOs), chalcogenides, carbon-based materials, phase change, ferroelectric materials, piezoelectric materials,magnetics materials, fluidics, and nanocomposites.



Andrea Aparicio
Neuronics25 Manager
Neus Pons
Onsite Manager
🏆 Oral prize valued as a 1-year free RSC membership from Materials Horizons journal, by the Royal Society of Chemistry for Daiki Nishioka.
🏆Oral prize valued as a 1-year free RSC membership from Nanoscale journal, by the Royal Society of Chemistry. for Jiaxuan Chen.
🏆Poster prize valued as a 1-year free RSC membership from Nanoscale Horizons journal, by the Royal Society of Chemistry for Ryo Iguchi.
🏆Poster prize valued as a 1-year free RSC membership from Materials Advances journal, by the Royal Society of Chemistry. for Wataru Namiki.
🏆Poster prize valued as a 1-year free RSC membership, by the Royal Society of Chemistry. for Maki Nishimura.