University of Cambridge

Bitcoin options can provide an environment-friendly remedy to energy-guzzling cryptocurrencies
The cryptocurrency bitcoin currently consumes much more electrical energy a year than the entire of Argentina, according to current quotes from the University of Cambridge. That's since the creation of a bitcoin, in a process called mining, is achieved by effective computers that work all the time to translate and address complicated mathematical issues.
Jul 14, 2021 // Blockchain, Argentina, South america, Bitcoin, University of Cambridge
New approaches for designing electroluminescent products
New study information exactly how a course of electroluminescent materials, crucial elements of devices such as LED lights and also solar cells, can be developed to function a lot more efficiently.
Jan 11, 2021 // Technology, solar cells, University of Cambridge, University of Oxford, efficiently, Seoul National University, Korea Advanced Institute of Science and Technology, Ecole Polytechnique Fédérale de Lausanne, Andrew M. Rappe, University of Tennessee, Universitat de Valencia, Harbin Institute of Technology, Arvin Kakekhani
New environment-friendly materials can power wise tools utilizing ambient light
We are significantly making use of more smart tools like mobile phones, wise audio speakers, and wearable health as well as health sensing units in our homes, workplaces, and public buildings. Nonetheless, the batteries they make use of can diminish promptly and include hazardous and also uncommon environmentally damaging chemicals, so scientists are searching for far better ways to power the gadgets.
Nov 16, 2020 // Technology, UK, China, Europe, Asia, University of Cambridge, Soochow University, Robert Hoye, Vincenzo Pecunia, Imperial College London
Printed security for perovskite cells
Scientists led by the University of Cambridge have created a brand-new approach to print a protective layer of copper straight onto a perovskite solar cell, supplying protection to the energetic layer from damages frequently created in later manufacturing phases. Cells using this layer were evaluated in various tandem mixes with silicon cells and achieved a maximum efficiency of 24.4%.
Jul 11, 2020 // Technology, UK, solar cells, Europe, perovskite, efficiency, University of Cambridge