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Discover how machine learning and data-driven approaches are revolutionizing the design of soft materials like polymers and rubbers, making them more efficient and adaptable to various applications.
Exploring the recent advancements in conductive hydrogel-based epidermic sensors for wearable healthcare and human-machine interaction, researchers created and applied a new MXene hydrogel with enhanced mechanical strength, improved electrical conductivity, and antibacterial properties.
New research reveals that the fundamental processes driven by copper are consistent across both inflammation and cancer metastasis. This newfound understanding of the influence of copper on cellular plasticity may pave the way for innovative therapeutic strategies in the future.
Comprehensive analysis of nanocellulose as a promising component in the development of advanced flexible materials. Emphasizes potential applications in electronics, energy storage, and biomedicine, and investigates the challenges and future perspectives in the field.
Discover how researchers use self-rolling ferroic oxide films to revolutionize data storage. This innovative method increases storage density by up to 45 times, potentially achieving ultrahigh-density information storage of 10 Tbit per square inch, paving the way for next-gen memory technology.
Innovative study replicates human fingerprint patterns and sweating in artificial materials, offering groundbreaking advancements in soft robotics, biometrics, and biomimetic technology
Scientists have recently discovered a new class of amorphous nanomaterials that are created by introducing atomic irregular arrangements. These materials demonstrate excellent performance in catalysis, energy storage, and mechanics.
Researchers have reviewed recent advances of heterogeneous integration of van der Waals materials from 2D materials to functional 3D crystalline nanomembranes for advanced photonic and optoelectronic applications.