Microbes display incredible metabolic diversity. Since the dawn of life on Earth, around 4 billion years ago, microorganisms have evolved ...

Researchers at the University of California, Riverside, have uncovered how to manipulate electrical flow through crystalline ...

In their simulations of 2D semiconductors with strong electron-phonon interactions, the researchers found that when treating both the charge and heat carriers as part of the same system, the ...

A research team including members from the University of Michigan have unveiled a new observational technique that's sensitive to the dynamics of the intrinsic quantum jiggles of materials, or phonons ...

A new study published in Physical Review Letters has introduced a new form of the classic Ising model that, by incorporating non-reciprocal interactions, could recreate many properties of one-way ...

Significance This research uncovers a groundbreaking link between electron spin and proton transport in biological environment, using lysozyme as a model system. Proton transfer, vital in many life ...

They’ve essentially toggled the electron highway signs with an external magnetic field. This elegant control over band asymmetry might lead to low-power, high-speed data storage based on ...

By controlling electron flow, this strategy achieves efficient activation and direct transformation of N 2 under mild conditions to synthesize azo compounds in a single step, offering a new ...

This one-way electric flow, known as rectification, directly reflects the chirality of the material and could serve as a way to "read" magnetic information.

FlowER uses flow matching to model chemical reaction as a process of electron redistribution, conceptually aligns with arrow-pushing formalisms. It aims to capture the probabilistic nature of ...

A research team at Osaka University is investigating an alternative method of enhancing device performance. This method involves applying a patterned metal layer, also known as a structural ...

In this study, we investigate the correlation between catalytic synergy and hot electron chemistry driven by the electron coupling effect using a model system of Au–Pd bimetallic nanoparticles.