ON
← Back to feed
UV light patterns thermochromic crystals without damage, unlocking color-changing designs
United Kingdom🔬 Science5 days ago

UV light patterns thermochromic crystals without damage, unlocking color-changing designs

Researchers at Yale University have developed a method to create thermochromic materials that change color based on temperature without causing physical degradation. This innovation uses a 'connector' molecule called an anthracene heterodimer, allowing materials to be patterned with light rather than traditional dyes. The technique involves using ultraviolet light to alter the chemical structure of specific regions in a material, enabling localized thermochromic effects. The study utilized a crystalline scaffold known as a metal-organic framework (MOF), which provides structural flexibility and chemical responsiveness. By combining two different types of anthracene molecules, the team overcame issues of crystal instability caused by prior methods, opening possibilities for advanced nanotechnology applications.

How each side covered it

The same event, grouped by the political lean of the outlets covering it.

How each side covered it

Support independent, bias-aware news and unlock the social pulse, community voting, and your personalized For You feed.

Become a Supporter

Covered around the world

The same event as reported in other countries.

Covered around the world

Support independent, bias-aware news and unlock the social pulse, community voting, and your personalized For You feed.

Become a Supporter

Go to the primary sources (1)

The official sources this coverage is built on. Read them directly to bypass framing.

1 reports

Phys.org logoPhys.orgIndependentCenter5 days ago
UV light patterns thermochromic crystals without damage, unlocking color-changing designs

Researchers at Yale University have developed a method to create thermochromic materials that change color based on temperature without causing physical degradation. This innovation uses a 'connector' molecule called an anthracene heterodimer, allowing materials to be patterned with light rather than traditional dyes. The technique involves using ultraviolet light to alter the chemical structure of specific regions in a material, enabling localized thermochromic effects. The study utilized a crystalline scaffold known as a metal-organic framework (MOF), which provides structural flexibility and chemical responsiveness. By combining two different types of anthracene molecules, the team overcame issues of crystal instability caused by prior methods, opening possibilities for advanced nanotechnology applications.

Bias read (Center): The article discusses scientific research with no direct political implications. It focuses on technological advancements in materials science and does not involve political figures, policies, or contentious issues.

Keep the news honest.

ObjectiveNews is reader-funded and ad-free — we show you the bias instead of hiding it. Support independent journalism for €5/month.

Become a Supporter

Related stories