New catalyst grows 30 cm-long carbon nanotube arrays
Researchers develop floating bimetallic catalysts to grow ultralong carbon nanotube arrays with unprecedented density and uniformity, paving the way for advanced applications.
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Researchers develop floating bimetallic catalysts to grow ultralong carbon nanotube arrays with unprecedented density and uniformity, paving the way for advanced applications.
Researchers introduce a novel nanopatterning technique for vertically aligned carbon nanotubes, boosting atomic penetration and enabling significant advancements in mechanical, chemical, and sensing technologies.
Researchers unlock the potential of conductive polymers in artificial muscle technology, achieving impressive performance with low-cost materials.
Novel wet spinning method produces densely packed, highly conductive carbon nanotube yarns in minutes, opening doors for large-scale production and applications.
Nnew stretchable biomimetic multimodal receptor built with kirigami film engineering and thermoelectric nanomaterials can switch between 2D and 3D modes to detect range of stimuli.
Researchers developed a scalable approach to manufacture intricate, electrochemically actuated carbon nanotube structures that can reversibly change shape through lithium alloying reactions controlled by simple electrical signals.
Scientists have developed a two-headed DNA-decorated carbon nanotube biosensor that leverages synergistic effects to identify disease biomarkers like proteins and DNA with record sensitivity, demonstrating applicability in endometriosis, cancer screening, and monkeypox detection.
Researchers use computer models and experiments to enhance carbon nanotubes, creating a more sustainable and efficient way to produce hydrogen peroxide.