An international team of scientists, led by researchers from the Institute of Nuclear Physics of the Polish Academy of ...

Dr. Andre Koernig discusses the evolving capabilities of atomic force microscopy (AFM), highlighting its applications in ...

According to a study published in Biomaterials Advances, scientists at the University of Copenhagen have developed a patch ...

New research finds n Gii can be used as a highly detective material in broadband photodetectors, which could lead to faster ...

In a recent article, researchers examined the adsorption capabilities of MIL-101(Fe)/graphene and g-C3N4/graphene composites ...

Researchers from the Vienna University of Technology have successfully measured and described the interaction between metal ...

In a recent article, researchers introduced light-responsive azobenzene polymer thin films as advanced neuronal interfaces, ...

A study published in Nano Letters by researchers from the Florida State University Department of Physics and ...

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 ...

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 ...

Atomic force microscopy (AFM) systems such as the MultiMode, 5100, and 5500 are transformed into state-of-the-art tools for cutting-edge research with CSInstruments' Galaxy Dual Controller. Whether in ...

Graphene is a simple material composed of only one layer of carbon atoms, but when two sheets of it are stacked together and offset at a slight angle, the resulting twisted bilayer material produces ...