This study presents a bilayer graphene model that regulates conductivity through controlled rotation, offering insights for ...

Juan Casado Cordón, Professor of Physical Chemistry at the University of Malaga, considers graphene—an infinite layer of ...

A research team has demonstrated how the energy levels of individual neurons in the brain change during so-called spreading depolarizations -- waves of activity that occur in various brain disorders.

Instead of applying the two-step algorithmic memory retrieval on the rather static energy landscape of the original Hopfield network model, the researchers describe a dynamic, input-driven mechanism.

The covalent bonding behaviour of carbon is the mainstay of organic chemistry, but in some compounds carbon seems to behave more like a metal. After Kekulé's formulation of the theory of chemical ...

Abstract: Future distributed transactive energy markets are envisioned to integrate multiple ... To this end, this paper presents a graph-based loss allocation framework that harmonizes the physical ...

Abstract: Rotational electret energy harvester (EH) for human arm swing is developed. By using flexible print circuit boards for electrode/electret substrates and metal ball bearing for the rotational ...

Here, we study the rotational motion of membrane proteins using molecular dynamics simulations of coarse-grained membranes and 2-dimensional Lennard-Jones fluids with varying levels of crowding. We ...

In this Account, we delve into the latest advancements made by our team in the chemistry of 2D materials toward sustainable electrochemical energy storage and catalysis. We begin by highlighting some ...

A team of chemists at the University of Cambridge has developed a powerful new method for adding single carbon atoms to molecules more easily, offering a simple one-step approach that could ...