A team of researchers from the Chinese Academy of Sciences used piezoelectric polymer poly-L-lactic acid (PLLA) fibers with ordered micro-nano structures and a piezo catalytically-induced controlled mineralization strategy to create biomimetic tissue engineering scaffolds with a bone-like microenvironment (pcm-PLLA).
Guilin University of Technology researchers have created a more flexible, affordable, safer, and high-performing battery option for wearable technology. On June 3rd, 2024, a study outlining the “recipe” for their novel battery type was published in the journal Nano Research Energy.
In a recent study, scientists from Tokyo University created zinc-based double-walled crystalline nanotubes using a brand-new supramolecular crystallization technique that entails oxidation-based crystallization.
To enhance the fields of drug development and medical research, there has been a strategic pivot from traditional animal experiments to the adoption of novel in vitro models.
Researchers from Okayama University, led by Research Associate Professor Hiroo Suzuki, investigated the use of carbon nanotube (CNT) yarns in thermoelectric conversion.
Researchers at TU Delft and Brown University have created string-like resonators that can vibrate longer at room temperature than any previously known solid-state device, reaching what is now only possible at absolute zero temperatures.
A recent study in Nature Communications explores the development of nickel-decorated platinum nanoparticles on perovskite nanofibers, enhancing catalytic activity and stability for CO oxidation through a synergistic, interaction-driven in-situ approach.
In the early 20th century, the development of a catalyst for ammonia synthesis by the Haber-Bosch method took more than 10,000 experiments before it was successful.
Dr. Han Joong Tark and student researcher Lee Do Geun at Korea Electrotechnology Research Institute's Nano Hybrid Technology Research Center have devised a novel manufacturing method for "silicon/nitrogen-doped carbon composite anode materials," designed to boost the capacity and stability of lithium-ion battery anodes.
In a recent paper published in Chem, researchers from Pohang University of Science and Technology have developed conducting two-dimensional polymers with electron mobility comparable to graphene, offering promising potential for applications requiring high electrical conductivity.
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