Publications by authors named "Jiqing Dai"
Article Synopsis
- - The development of next-generation brain-like intelligence using neuromorphic architectures is focused on mimicking how the brain learns and processes information, leveraging ionic signals for efficient computation and enhanced human-computer interaction.
- - Ionic conductive hydrogels, which are soft and biocompatible, present challenges in mimicking neuroelectric signals; researchers found that a specific hydrogel setup can simulate various electrical patterns found in biological synapses.
- - This innovative hydrogel device demonstrates the ability to replicate functions like tactile perception, learning, and memory while maintaining stability under extreme conditions, paving the way for advanced brain-like intelligent systems.
Ion transport under nanoconfined spaces is a ubiquitous phenomenon in nature and plays an important role in the energy conversion and signal transduction processes of both biological and artificial systems. Unlike the free diffusion in continuum media, anomalous behaviors of ions are often observed in nanostructured systems, which is governed by the complex interplay between various interfacial interactions. Conventionally, nanoionics mainly refers to the study of ion transport in solid-state nanosystems.
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