Bioinspired MXene-cellulose nanofiber actuator design mimics plant movement
Breakthrough in soft robotics: MXene-cellulose nanofiber actuators mimic plant movements, integrating sensing and actuation in one material.
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Breakthrough in soft robotics: MXene-cellulose nanofiber actuators mimic plant movements, integrating sensing and actuation in one material.
A new scanning electromagnetic induction quenching method enables the efficient production of high-quality, large-sized graphene glass in open air, paving the way for industrial applications.
Scientists leverage additive-free 3D printing process to construct exceptionally customizable and high-performing graphene-based micro-supercapacitors tailored for on-chip energy storage.
Researchers develop a scalable process for stable graphene-metal hybrids, enhancing sustainable chemical production with improved fabrication.
Researchers pioneer smart honeycombs by stacking and morphing laser-induced graphene layers, enabling innovative aerospace materials with integrated responsiveness to flight stresses like excessive heat, turbulence or ice buildup.
Researchers develop a technique to reliably grow high quality, wafer-scale sheets of promising 2D materials like graphene and boron nitride directly onto the non-conductive surfaces crucial for modern electronics manufacturing.
Researchers develop spin-selective memtransistor showing electrical control of proximity-induced magnetism in graphene on antiferromagnetic CrI3, enabling energy-efficient spin logic and nonvolatile memory devices.
Researchers developed modular, self-assembling graphene sensors that enable versatile, reconfigurable wearable health electronics tailored to individuals.