Researchers developed an FePPc nanotube catalyst that renews active sites during oxygen reduction, boosting stability and performance in clean energy applications.
Researchers designed clean yo-yo shaped nanoparticles for precise 5-FU drug monitoring using SERS, achieving high sensitivity, stability, and clinical accuracy.
Yo-yo shaped nanoparticles enable stable and sensitive drug detection with SERS Read More »
A research team has developed a new material that can significantly enhance the lifetime and efficiency of quantum-dot light-emitting diodes (QLEDs), which is a next-generation display technology. Applying a high-binding-energy organic material, which is resistant to degradation under electrical and thermal stress, to the hole transport layer (HTL) is expected to contribute to developing next-generation QLEDs that can maintain brightness and stability over extended periods.
High-binding-energy material achieves record QLED efficiency and lifetime Read More »
Scientists from National Taiwan University have developed a new nanomaterial-based system that dramatically improves the detection of a wide range of psychoactive substances, including emerging designer drugs.
Next-generation nanomaterial unlocks more efficient multidrug screening Read More »
A joint study by researchers from the Technion Israel Institute of Technology and the University of Texas at Austin sheds new light on the structure of membranes used in water desalination. Published in ACS Nano, the study was selected as the journal’s cover article.
Researchers at North Carolina State University have unveiled Rainbow, a first-of-its-kind multi-robot self-driving laboratory that autonomously discovers high-performance quantum dots—semiconductor nanoparticles critical for next-generation displays, solar cells, LEDs and quantum-engineering technologies.
Meet Rainbow: The multi-robot lab racing to discover the next quantum dots Read More »
The exceptional properties and predominant execution of graphene render it a promising radar retaining material, enthralling the interest of scientists and making a convincing inclination to dive into its potential applications. Graphene, a solitary molecule thick material made out of carbon iotas, displays interesting electrical,mechanical, and warm properties. At the point when utilized as a
Outfitting the Force of Graphene as Radar Engrossing Material- QuantoNano Read More »
Indium Phosphide Quantum dabs, which are made of colloidal quantum specks, have gathered a ton of consideration throughout the course of recent years as a possibly more secure substitute for cadmium-based quantum spots. They have had the option to blend various pieces, heterojunctions, dopants, and ligands with short discharge line widths, great quantum yields near
Fullerene Applications in Biomedicine: An Exhaustive Survey – QuantoNano Fullerene can be available in various sizes and shapes relying on the class they have a place with. Nonetheless, it generally presents as a pentagon or a hexagon. Fullerene shows wonderful properties and qualities on account of which their applications have just expanded throughout the last
Fullerene Applications in Biomedicine: A Far reaching Survey – QuantoNano Read More »
Lithium-particle battery reusing is critical for supportability, recuperating important materials through different methods to satisfy expanding need and diminish ecological impact. Lithium-particle batteries assume a vital part in energy capacity advances, like cell phones, electric vehicles, and environmentally friendly power frameworks. Nonetheless, with the rising utilization of these batteries, the administration and reusing of battery
Release the Capability of Lithium-particle Battery Reusing – QuantoNano Read More »
