Crystalline materials news

Special Issue on Color – A Functional Materials Perspective - Call for Papers - Materials Today Advances

New study stretches rubber to form battery electrolyte

Researchers have formulated a rubber electrolyte with superior ionic conductivity, mechanical properties and electrochemical stability.

Dynamic research uncovers molecular paddlewheels in solid electrolyte

Paddlewheel-like molecular dynamics help to push sodium ions through a novel solid electrolyte being investigated for use in sodium-ion batteries.

New software tool offers fundamental predictions for crystalline materials

A new open-source software tool can calculate the fundamental constants needed to describe the physical properties of crystalline solids.

Semiconductor particles possess facets of 2D materials

Researchers have discovered that the junctures at the facet edges of 3D semiconductor particles have 2D electronic properties.

Distortion leads to more stable perovskite crystals

Researchers have developed a method for stabilizing a specific perovskite material in solar cells, without compromising its near-perfect performance.

Mapping the material genome with megalibraries and AI

By applying machine learning to the data in their own megalibraries, researchers have successfully guided the synthesis of new nanomaterials.

Composite Structures Board Member Prof. Leng Jinsong elected Academician of the Chinese Academy of Science

2021 Materials Today Innovation Award Winner

New scheme for creating a stable artificial photosynthesis device

Using a design known as a Z scheme, researchers have developed a new artificial photosynthesis device with remarkable stability and longevity.

Solvent spray produces black perovskite for solar cells

Researchers have developed a novel low-temperature process for producing a stable black perovskite for use in solar cells.

Nickel rides at crest of a catalytic wave to create nanoribbons

Researchers have found that a nickel nanoparticle can catalyze the speedy synthesis of bilayer nanoribbons of molybdenum disulfide.

Particles overcome repulsion to form liquid-like cluster crystals

Particles made of an organic polymer core covered in DNA molecules can come together to form a material with properties of both a crystal and a liquid.

Soft joints let hard crystals stretch to fit

By incorporating soft joints, researchers have created a new type of porous, carbon-based crystals that can stretch to more than twice their length.

Low temperature milling makes hBN active

Hexagonal boron nitride (hBN) can be made ‘active’ by ball milling at extremely low temperatures

Short pitch could lead to fast switch for new liquid crystal

Researchers have discovered that a novel liquid crystalline cholesteric compound has the shortest known pitch.

New technique places boundary on thermal behavior of polycrystals

Researchers have used electron energy loss spectroscopy to investigate the effect of heating on the grain boundaries of a polycrystal in nanoscale detail.

Special Issue on Advanced Welding and Joining Technologies - Call for Papers