Cracked and blurry phone screens could someday be a thing of the past, suggests a new study from the 探花直播 of Cambridge and the 探花直播 of Queensland, Australia.
Cracked and blurry phone screens could someday be a thing of the past, suggests a new study from the 探花直播 of Cambridge and the 探花直播 of Queensland, Australia.
This is an example of how fundamental science leads to fantastic discoveries and possible real-life applications
Thomas Bennett
探花直播international team of researchers has developed technology for next-generation composite glass, for use in lighting LEDs, smartphones, TVs and computer screens.
探花直播materials are based on materials called lead-halide perovskites, which can trap light and store energy, like miniature solar panels.
探花直播, published in the journal Science, could enable the manufacture of glass screens that are less prone to cracking, but also deliver crystal clear image quality.
探花直播results are a step forward in perovskite nanocrystal technology as previously, researchers were only able to produce this technology in the bone-dry atmosphere of a laboratory setting.
鈥淭hese nanocrystals are extremely sensitive to light, heat, air and water 鈥 even water vapour in our air would kill the current devices in a matter of minutes,鈥 said Dr Jingwei Hou from the 探花直播 of Queensland (UQ), the paper鈥檚 first author.
探花直播team of chemical engineers and material scientists has developed a process to wrap or bind the nanocrystals in porous glass. This process is key to stabilising the materials, enhancing their efficiency and preventing the toxic lead ions from leaching out from the materials.
鈥淚t was surprising to see the retention of the high temperature functional form in the glass,鈥 said co-senior author from Cambridge鈥檚 Department of Materials Science and Metallurgy. 鈥淭his is an example of how fundamental science leads to fantastic discoveries and a possible real-life application of metal-organic framework glasses.鈥
探花直播researchers say the technology is scalable and opens the door for many potential applications.
鈥淎t present QLED or quantum dot light-emitting diode screens are considered the top performer for image display and performance,鈥 said Hou. 鈥淭his research will enable us to improve on this nanocrystal technology by offering stunning picture quality and strength.鈥
鈥淣ot only can we make these nanocrystals more robust but we can tune their opto-electronic properties with fantastic light emission efficiency and highly desirable white light LEDs.鈥 said co-author Professor Vicki Chen, also from UQ. 鈥淭his discovery opens up a new generation of nanocrystal-glass composites for energy conversion and catalysis.鈥
探花直播researchers say that a lot of optimisation work still needs to be carried out before any products based on the material could be made commercially available. 鈥淭here are a huge amount of different combinations and it鈥檚 definitely going to be a big effort to determine which components seem to give the best combinations,鈥 said Bennett.
探花直播research is a collaborative effort from UQ, the 探花直播 of Leeds, Universite虂 Paris-Saclay and the 探花直播 of Cambridge.
Reference:
Jingwei Hou et al. 鈥.鈥 Science (2021). DOI: 10.1126/science.abf4460
Adapted from a UQ .
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