Quantum information platforms are based on qubits that talk to each other and photons (optical and microwave) are the carrier of choice—to date, to transfer quantum states between qubits. However, in some solid-state systems, acoustic vibrational ...
May 2, 2019
Graphene is harder than a diamond, lighter than aluminum, tougher than steel, and more elastic than rubber. These are just a few properties of this wonder material that serves as an excellent...
May 2, 2019
Artist employs laser-induced graphene as medium for ultramodern art.
May 2, 2019
Current Noisy Quantum Computers have success rates of 3% to 90% depending upon the type of program or algorithm. A new quantum compiler will improve the success rates by an average of 3 times and up to 18 times.
May 2, 2019
The use of potassium bromide in the production of graphene on a copper surface can lead to better results. When potassium bromide molecules arrange themselves between graphene and copper, it results in electronic decoupling. This alters the elect...
May 2, 2019
Scientists from the National University of Science and Technology "MISIS" together with their colleagues from Derzhavin Tambov State University and Saratov Chernyshevsky State University have figured out that graphene is capable of puri...
May 2, 2019
Chemical reactions are involving directional migration of electrons and charged intermediates, depending on the redox potentials of different reactive sites. The chemical energy can be converted into electrical energy when the chemical reactions ...
May 2, 2019
For emerging wearable tech to advance, it needs improved power sources. Now researchers from Michigan State University have provided a potential solution via crumpled carbon nanotube forests, or CNT forests.
May 2, 2019
1838. That was the year when, according to a fascinating AR/VR infographic from HistoryDegree.net and reposted to Techrepublic.com, AR got started. In 1838, Charles Wheatstone, a professor of experimental philosophy, invented the stereoscope, a d...
May 1, 2019
Researchers have designed a nanoparticle that generates radiation-induced oxygen free radicals even in the low-oxygen center of tumors, dramatically increasing the success of radiation therapy.
May 1, 2019
