- PM Modi visit USAOnly the mirror in my washroom and phone gallery see the crazy me : Sara KhanKarnataka rain fury: Photos of flooded streets, uprooted treesCannes 2022: Deepika Padukone stuns at the French Riviera in Sabyasachi outfitRanbir Kapoor And Alia Bhatt's Wedding Pics - Sealed With A KissOscars 2022: Every Academy Award WinnerShane Warne (1969-2022): Australian cricket legend's life in picturesPhotos: What Russia's invasion of Ukraine looks like on the groundLata Mangeshkar (1929-2022): A pictorial tribute to the 'Nightingale of India'PM Modi unveils 216-feet tall Statue of Equality in Hyderabad (PHOTOS)
Indian men's hockey team captain Harmanpreet Singh has been named Player of the Year 2024
- World Boxing medallist Gaurav Bidhuri to flag off 'Delhi Against Drugs' movement on Nov 17
- U23 World Wrestling Championship: Chirag Chikkara wins gold as India end campaign with nine medals
- FIFA president Infantino confirms at least 9 African teams for the 2026 World Cup
- Hockey, cricket, wrestling, badminton, squash axed from 2026 CWG in Glasgow
- FIFA : Over 100 female footballers urge FIFA to reconsider partnership with Saudi oil giant
New method to develop cheaper computer chips Last Updated : 05 Mar 2017 07:23:38 PM IST (file photo)
Researchers have developed an innovative method to engineer cheap versatile computer chips that could offer greater speed, efficiency and capability of the next generation of computers.
The discovery could revolutionise the production of optoelectronic materials - or devices that produce, detect and control light -- which are vital for the next generation of renewable energy, security and defence technologies, the researchers said in a paper published in the journal Scientific Reports.
"This breakthrough will hopefully lead to a revolution in the development of vital new materials for computer electronics," said Anna Baldycheva from Exeter's Centre for Graphene Science and author of the paper.
The materials and methods used to develop the chips are extremely promising for a wide range of further potential applications beyond the current devices, added Baldycheva.
The team used microfluidics technology, which uses a series of minuscule channels in order to control the flow and direction of tiny amounts of fluid.
The team analysed their methodology to not only confirm the technique is successful but also to provide a blueprint for others to use to help manufacture the chips.
For Latest Updates Please-
Join us on
Follow us on
172.31.16.186