Scientists have recently made a breakthrough in the field of printable circularly polarized luminescence materials. The new materials, developed by a team from the University of Cambridge, are capable of producing circularly polarized light when exposed to an electric field. This has big implications for the future of such fields as 3D printing, optical communications, and displays.

The new materials are a type of metal-organic frameworks (MOFs), which are a type of material composed of metal ions and organic molecules. MOFs are known for their ability to store gases and liquids, but this new discovery has extended their capabilities to producing circularly polarized light. The researchers demonstrated that when exposed to an electric field, the MOFs produce circularly polarized light, which is light that has been “twisted” in one direction. This property is important for many applications, such as optical communications and 3D printing.

The researchers believe that this breakthrough could revolutionize the way that we use light in the future. It could enable the 3D printing of complex structures, as well as provide a new way to communicate with light. This discovery could lead to further breakthroughs in the field of printable luminescent materials.

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source: Phys.org