In recent times, a mechanicallydurablehydrogel synapse has become increasingly relevant in various contexts. A MechanicallyDurableHydrogel Synapse - Tian - 2025 - Advanced .... This work presents a novel chemical approach for designing mechanically durable artificial synapses, paving the way for the application of functional soft materials in neuromorphic devices and artificial intelligent systems. Updated monthly, the Nature Index presents research outputs by institution and country.
Use the Nature Index to interrogate publication patterns and to benchmark research performance. Ionic Potential Relaxation Effect in a Hydrogel Enabling Synapse-Like .... Such an effect allows us with hydrogels to enable synapse-like information processing functions, including tactile perception, learning, memory, and neuromorphic computing. Moreover, herein, an optically modulated conductivity switching property in a hydrogel material through a stimuli‐responsive supramolecular assembly process is achieved, which not only emulates biological... Hydrogel‐Based Artificial Synapses for Sustainable Neuromorphic .... Furthermore, here, the state-of-the-art in functional hydrogel-based transistors and memristors is reviewed as potential artificial synapses.
Within these systems, hydrogels can serve as semisolid dielectric electrolytes in transistors and as switching layers in memristors. It's important to note that, highly Transparent, Conductive, and Mechanically Robust Hydrogels via .... Here, a cost-effective and efficient strategy for in situ rapid synthesis of hydrogels with Mo 2 C-derived molybdenum polyoxometalates (POM) is developed.
Mechanically robust all-hydrogel supercapacitor having seamless .... A hydrogel supercapacitor with a seamless interface exhibits better electrochemical performance along with mechanical properties. Here, electrode and electrolyte thickness were carefully controlled to make the overall dimensions and AC loading level the same for both sandwiched and seamless devices (Fig. Mechanically robust, biocompatible, and durable PHEMA-based hydrogels .... These PHEMA-based hydrogels, with excellent mechanical properties, fatigue resistance, and biocompatibility, are promising candidates for replacing diseased or damaged nasal and auricular cartilage.
📝 Summary
Learning about a mechanically durable hydrogel synapse is essential for those who want to this field. The knowledge provided throughout serves as a solid foundation for continued learning.