A team of researchers from Toshiba Europe successfully transmitted messages over a 158-mile stretch of existing fiber-optic ...

In the intricate world of quantum physics, where particles interact in ways that seem to defy the standard rules of space and time, lies a profound mystery that continues to captivate scientists: the ...

Historically, the vast majority of pharmaceutical drugs have been meticulously designed down to the atomic level. The ...

Researchers have long recognized that quantum communication systems would transmit quantum information more faithfully and be impervious to certain forms of error if nonlinear optical processes were ...

Quantum teleportation, once a staple of sci-fi lore, is now edging closer to scientific fact. What seemed impossible a decade ...

A new publication from Opto-Electronic Advances; 10.29026/oea.2025.240207, discusses how light boosts exciton transport in organic molecular crystal.

Addressing this issue requires advanced materials and interface engineering, alongside a comprehensive understanding of materials physics, chemistry, transport dynamics, and various electronic, ...

His research interests include electron transport and terahertz photodynamics of semiconductor heterostructures and quantum nanostructures.

These findings, published in the journal Biomaterials Science, offer a strategy for creating more reliable DNA nanostructures, opening new possibilities for quantum computing, optoelectronics, and ...

Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana─Champaign, Urbana, Illinois 61801, United States Department of Materials Science and Engineering, University of ...

tunable nanostructures and low-voltage electrical control. This discovery is published in Advanced Materials in a paper titled "Electrically tunable and modulated perovskite quantum emitters via ...