Framework sets new benchmarks for 3D atom maps in amorphous materials

Researchers at the California NanoSystems Institute at UCLA published a step-by-step framework for determining the ...
EurekAlert!

Topology reveals the hidden rules of amorphous materials — Softness arises from hierarchical structures

Persistence diagram obtained from the structure of amorphous silicon, examples of the local ring structures corresponding to each point in the diagram, and representative structures including atoms ...
EurekAlert!

Breaking the crystalline barrier: Amorphous nanomaterials in advanced photocatalysis

Photocatalysis, a technology that converts solar energy into chemical reactions, holds immense promise for addressing energy shortages and environmental pollution. However, traditional crystalline ...
Nanowerk

Atomic insights reveal hidden structure in amorphous silicon

Researchers uncovered how soft regions in amorphous silicon mix order and disorder, offering new insights for designing stronger amorphous materials. Persistence diagram obtained from the structure of ...
AZOM

Rigaku Develops Technology for 3D Visualization of the Atomic-scale Structure of Amorphous Carbon

The X-ray Laboratory of Rigaku Corporation, a Rigaku Holdings Group company and a global solution partner for X-ray analysis (headquarters: Akishima, Tokyo; president and CEO: Jun Kawakami; “Rigaku”), ...
AZOM

Converting 2D Kaolinite into 3D Amorphous Cement

A recent study published in Scientific Reports outlined a breakthrough in the chemical conversion of kaolinite, a two-dimensional (2D) material, into a three-dimensional (3D) amorphous structure.
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Topology reveals the hidden rules of amorphous materials: Softness arises from hierarchical structures

Why do glass and other amorphous materials deform more easily in some regions than in others? A research team from the University of Osaka, the National Institute of Advanced Industrial Science and ...