The 100-kilometer fiber optic cable through which a team of researchers at DTU has successfully distributed a quantum-encrypted key securely. Credit: DTU Researchers at the…
View More An Unprecedented 100 km – Researchers Set New Distance Record With Quantum KeysAn Unprecedented 100 km – Researchers Set New Distance Record With Quantum Keys
Unlocking Solar Secrets: New Research Paves the Way for Efficiency Gains
This image shows a visualization of the calculated exciton transfer from an upper tetracene layer of a solar cell to the silicon substrate. The electron…
View More Unlocking Solar Secrets: New Research Paves the Way for Efficiency GainsElectrically Tunable Metasurfaces: Liquid Crystal Alignment by Dielectric Meta-Atoms
Innovative research led by Professor Daping Chu has produced a liquid crystal-based dielectric metasurface, reducing manufacturing complexities and improving optical device performance, with significant implications…
View More Electrically Tunable Metasurfaces: Liquid Crystal Alignment by Dielectric Meta-AtomsAdvancements in Deep Ultraviolet Laser Technology
193-nm DUV laser generated by cascaded LBO crystals. Credit: H. Xuan (GBA branch of Aerospace Information Research Institute, Chinese Academy of Sciences), edited Researchers developed…
View More Advancements in Deep Ultraviolet Laser TechnologyScience Simplified: What Is Autonomous Discovery?
Autonomous discovery at Argonne National Laboratory leverages AI, machine learning, and robotics to accelerate scientific research in areas like climate change, health, and energy, transforming…
View More Science Simplified: What Is Autonomous Discovery?The Exciton Enigma: Unlocking the Secrets of 2D Semiconductors at the Atomic Level
An ultra-short flash of light breaks the bond between the electron (red) and the hole (blue), enabling research on charge-transfer processes in atomically thin semiconductors.…
View More The Exciton Enigma: Unlocking the Secrets of 2D Semiconductors at the Atomic LevelRevolutionizing Tech With a Simple Equation: New Predictive Tool Will Speed Up Battery and Superconductor Research
A new study from the University of Tokyo offers a simple yet effective formula for predicting the stability of intercalated materials, key to next-gen electronics…
View More Revolutionizing Tech With a Simple Equation: New Predictive Tool Will Speed Up Battery and Superconductor ResearchNew Research Reveals That Classical Computers Can Surpass Their Quantum Counterparts
Quantum computing offers major advancements in processing speed and efficiency but faces significant challenges, including information loss. Recent research has shown that optimized classical algorithms…
View More New Research Reveals That Classical Computers Can Surpass Their Quantum CounterpartsUnleashing the Power of Memristors in High-Precision Computing
An exemplar photograph of an integrated chip containing memristor crossbar arrays of various sizes made at UMass Amherst. Credit: Can Li UMass Amherst research demonstrates…
View More Unleashing the Power of Memristors in High-Precision Computing23.64% Efficiency – Scientists Set New World Record for CIGS Solar Cells
Scientists have set a new efficiency world record for CIGS solar cells at 23.64 percent, highlighting the potential of CIGS technology in advancing solar energy…
View More 23.64% Efficiency – Scientists Set New World Record for CIGS Solar Cells