Computation and theory news

Composites Part C: Open Access – new journal explores innovations across composite material science

Floppy vibrations make for efficient thermoelectric materials

Researchers have uncovered the atomic mechanism that makes tin-based thermoelectric materials incredibly efficient at high temperatures.

New open access journal brings latest developments in carbon materials science to a wide audience

Springing into action with elliptical holes

Adding elliptical holes to elastic materials can enhance their efficiency at converting elastic energy to kinetic energy for extreme velocity movements.

Neural network shows affinity for predicting properties of organic materials

A novel artificial neural network can predict the degree of water repulsion and protein adsorption by ultra-thin organic materials.

New findings flow from study on soft materials

For the first time, researchers have developed a way to measure the individual solid-like and liquid-like behaviors of soft materials separately.

Novel approach to tracking ions could improve energy storage

By combining computational modeling with experimental data, researchers have developed a novel approach for tracking ions within a 2D material.

Researchers take different perspective on modelling quantum materials

A novel mathematical procedure can reduce the computational cost of modelling quantum materials via the quantum Monte Carlo method.

Acta Journals Editor Transitioning to Joint Appointment

Buckled graphene makes cool quantum material

Researchers have found that cooling graphene while it is attached to a flat surface will cause it to buckle, altering its electronic properties.

New method predicts how 2D materials stack together

Researchers have developed a method for predicting the interaction between layers of 2D materials such as graphene in a stack.

Fins add speed to zeolite catalysts

Researchers have developed a way to induce large zeolite catalyst particles to behave like nanoparticles by growing fins on their surfaces.

Manganese improves sensitivity of 2D dopamine detector

Adding a small amount of manganese to 2D molybdenum disulfide improves its sensitivity as a dopamine detector by many orders of magnitude.

How does soft hair damage sharp steel blades?

By studying shaving with a scanning electron microscope, engineers have determined how a razor blade can be damaged as it cuts human hair.

Prof. Boccaccini marks 10 years as Editor-in-Chief of Materials Letters

Nanoreactor Strategy Generates Superior Supported Bimetallic Catalysts

Absorbing findings on how sorbent materials capture and release carbon

Researchers have determined exactly how some sorbent materials capture and release carbon dioxide from the atmosphere.

Elsevier and SPIE Launch New Book Series for the Photonics Community

We are excited to announce that Elsevier in collaboration with SPIE, titled Photonic Materials and Applications.