Organolithium compounds, molecules containing a carbon–lithium bond, are excellent precursors for building new carbon–carbon ...

In a groundbreaking study, scientists developed new ways to control atom collisions using optical tweezers, offering insights ...

Scientists have developed Rhobo6, a light microscopy probe that reveals extracellular matrix structures in live tissues, ...

Using the nanostructures found on butterfly wings, scientists have developed a simple and inexpensive way to analyze ...

Scientists have identified a new property, interface flexibility, that controls how certain molecules naturally self-organize into crystalline supramolecular networks. This significant discovery could ...

Porous organic crystals with superior properties as CO2 adsorbents were created by researchers at Institute of Science Tokyo.

Trial-and-error separations could be replaced by quantitative and predictive molecular methods, researchers find The process ...

Covalent bonding is a widely understood phenomenon that joins the atoms of a molecule by a shared electron pair. But in ...

The short answer is; no. We will never see atoms using visible light, simply because the wavelength of visible light (around 400 to 700 nanometers) is larger than the size of an atom (around 0.1 to ...

Its measurement technology uses atomic force microscopy to measure silicon wafers, which allows it to operate at dimensions ...

Covalent bonding is a widely understood phenomenon that joins the atoms of a molecule by a shared electron pair. But in nature, patterns of molecules ...

In battery research, Raman spectroscopy is a key tool for analyzing materials, monitoring degradation, and optimizing performance in energy storage systems.