An optical-enhanced form of palladium could be the key to a more environmentally friendly chemical manufacturing industry.Researchers at RMIT University in Australia manipulated the optical properties of palladium nanoparticles to make a nano-enhanced material that can more effectively convert natural light to chemical reactions.Professor Daniel Gomez at RMIT said:”The photo catalyst we’ve developed can catch 99% of light across the spectrum,and 100% of specific colours.It’s scaleable and efficient technology that opens new opportunities for the use of solar power.”Although palladium is both rare and expensive,this technique uses just 4 nanometres-0.004% the thickness of a human hair.This is enough to absorb 99% of light and achieve a chemical reaction.
展开▼
机译:一种光学增强的钯形式可以是更环保的化学制造业的关键。澳大利亚的RMIT大学的搜索者操纵钯纳米粒子的光学性质,使纳米增强材料更具有效地将自然光转化为化学反应的纳米增强材料 。RMIT的Professor Daniel Gomez说:“我们开发的照片催化剂可以捕获跨越频谱的99%,以及100%的特定Colours.it的可扩展和高效的技术,为使用太阳能开辟了新的机会。” 虽然钯均稀有且昂贵,但这种技术仅使用4纳米-004%的人发的厚度。这足以吸收99%的光并实现化学反应。
展开▼