A new phosphor material could make it possible to replace the mercury in
fluorescent lights with xenon, an inert, eco-friendly gas. Inside strip lights,
electricity passes through mercury vapour, producing ultraviolet radiation. When
this UV strikes the phosphors that coat the inside of the tubes, they emit
visible light, or fluoresce. Existing phosphors, however, cannot convert the
higher energy UV (VUV) produced by xenon. But the new phosphor, developed by
researchers at Utrecht University, emits two visible photons for every VUV
photon it absorbs, giving bright orange and red light (Science, vol
283, p 663). To make white light, blue and green phosphors now need to be
developed.
More from New Å®ÉúСÊÓƵ
Explore the latest news, articles and features
Life
Fossil fruits show flowering plants flourished in time of dinosaurs
News
Environment
Can home batteries help save the climate and save you money?
News
Health
We’ve uncovered a master gene that switches on human development
News
Environment
The race to understand how and when Thwaites glacier will collapse
Features
Popular articles
Trending New Å®ÉúСÊÓƵ articles
1
Woman with Alzheimer's starts conversing again after taking psilocybin
2
If you aren't terrified by this heatwave, you should be
3
Lost books by ancient philosophers recovered from 'unreadable' scrolls
4
The race to understand how and when Thwaites glacier will collapse
5
Our verdict on The Selfish Gene: An unpopular piece of popular science
6
Faecal transplant makes the brains of old mice act young again
7
The best sci-fi novel in 2026 so far – plus 6 other great reads
8
We’ve uncovered a master gene that switches on human development
9
How menopause radically changes the brain – and what happens after
10
The surprising ways your brain changes from your 20s to your 40s
