The conductance of classical electric components typically decays with increasing length. In general, this is also the same behavior found at the nanoscale with 1D molecular wires. Now ...

Gas transport through a metal cluster-containing crystalline solid. Hydrogen and carbon monoxide travel at different speeds due to their molecular size relative to the size of nanoscale tunnels in the ...

The nanogate consisted of a single nanopore that was formed in a silicon nitride membrane. The membrane was positioned in a ...

EKF Diagnostics has introduced a molecular transport media called PrimeStore ® MTM (molecular transport medium) that gives users a “snapshot” in time for a specific sample by stabilizing and ...

These highly efficient and specialized proteins are responsible for a wide range of essential cellular processes, including muscle contraction, cell division, and intracellular transport. Molecular ...

Researchers at Duke University have uncovered the molecular inner workings of a material that could underpin next-generation rechargeable batteries. Unlike today's popular lithium-ion batteries ...

Neurons balance energy efficiency by regulating protein synthesis based on molecular properties like stability and size.

The transport of the proteins so far investigated ... for fluorescent dextrans 6. As differences in molecular mass between the fusion proteins and GFP alone cannot account for these large ...

However, the high speed of this transport system in the human body has created significant challenges for the scientists studying it. A research team led by Dr. Frank Lin, Distinguished Professor of ...