In a recent article, researchers introduced light-responsive azobenzene polymer thin films as advanced neuronal interfaces, demonstrating their potential in studying neuronal interactions and developing new therapeutic strategies.
By Dr. Noopur Jain
11 Nov 2024
A difficult-to-describe nanoscale object called the magnetic skyrmion might one day yield new microelectronic devices that can do much more--for example, massive data storage--all while consuming much less power.
A study published in Nano Letters by researchers from the Florida State University Department of Physics and FSU-headquartered National High Magnetic Field Laboratory explores how physical manipulations of graphene, such as layering and twisting, affect its optical properties and conductivity.
In a recent article, researchers synthesized and characterized amino acid-functionalized magnetite nanoparticles, exploring their potential for applications in drug delivery, imaging, and antimicrobial treatments.
By Dr. Noopur Jain
8 Nov 2024
According to a study published in Science, researchers have created a new record-breaking 3D imaging tool.
Researchers at the Institute for Biotechnology and Biomedicine at the Universitat Autònoma de Barcelona (IBB-UAB) have developed a new class of nanostructures capable of trapping and neutralizing significant amounts of SARS-CoV-2 virus particles, both in liquid solutions and on material surfaces.
Recent studies co-led by engineers from the University at Buffalo, published in Nature Communications and Matter, address the limitations associated with flame aerosol synthesis. These studies focus on a specialized flame aerosol system that the engineers developed, which they claim is cost-effective, adaptable, and easy to u???????se.
A recent study conducted by researchers from the Politecnico di Milano, in collaboration with Aalto University, the VTT-Technical Research Centre in Finland, and the SCITEC Institute of the CNR aimed to develop hydrophobic paper by utilizing the mechanical properties and water resistance of cellulose nanofibers, creating a sustainable, high-performance material suitable for packaging and biomedical applications.
By determining the material’s maximum achievable superconducting temperature, 60 Kelvin, Cornell researchers are advancing the comprehension of how it reaches this state, according to a study published in Physical Review Letters.
A new study reveals a novel method for creating nanostructures on Au nano-films using a laser-irradiated scanning probe technique.
In a recent article, researchers introduce a novel silica/klucel nanocomposite designed to remove lead ions from wastewater effectively. The study explores the nanocomposite's adsorption capacity, stability, and reusability, highlighting its potential for sustainable wastewater treatment.
By Dr. Noopur Jain
5 Nov 2024
In a recent article, researchers explored how single-layer graphene oxide (slGO) nanosheets enhance bone marrow stem cell growth and differentiation when encapsulated in alginate microgels, presenting new possibilities for bone tissue engineering.
By Dr. Noopur Jain
4 Nov 2024
Scientists from Kyushu University have demonstrated that singlet fission (SF) can be enhanced by introducing chirality—molecules that are non-superimposable on their mirror images—into chromophores and achieving chiral molecular orientation in self-assembled structures.
Researchers from Queen Mary University of London have made a major breakthrough in sustainable electronics by developing new nanocomposite films made from starch instead of petroleum-based materials, according to a study published in Advanced Functional Materials.
In a recent article, researchers presented an iridium single-atom catalyst coordinated with cobalt–iron hydroxides, showing enhanced performance for oxygen evolution reactions (OER). This catalyst demonstrates reduced metal usage and improved efficiency, marking a step forward in sustainable energy technologies.
By Dr. Noopur Jain
1 Nov 2024