Tag: 2D materials
-
Flexible Supercapacitor for Wearables and EVs – Nagaland Uni
Breakthrough Overview Researchers at Nagaland University have unveiled a flexible supercapacitor capable of powering next-generation wearable electronics, electric vehicles (EVs), and renewable energy systems. This study is notable not only for its substantive advancement in material science but also for its hands-on demonstration: a working prototype that proves the technology’s practical viability beyond lab-scale development.…
-
Flexible Supercapacitor Breakthrough Promises to Power Wearables, EVs, and Clean Energy—Reducing Battery Imports
Groundbreaking flexible supercapacitor from Nagaland University A team of researchers at Nagaland University, supported by the Indian Institute of Science (IISc) Bangalore and funded by the Anusandhan National Research Foundation (ANRF), has unveiled a flexible supercapacitor device with the potential to transform energy storage in India. The prototype demonstrates practical viability for powering next-generation wearable…
-
Molecular Coating Cleaned Up Noisy Quantum Light for Quantum Tech
A Breakthrough for Stable Quantum Light Quantum technologies hinge on one unerring rule: every photon must be identical, produced one at a time, with the same energy. Tiny deviations in photon number or energy can derail quantum computers, secure communications, and ultra-precise sensors. Northwestern University engineers have unveiled a practical solution: coating an atomically thin…
-
Molecular Coating Cleans Up Noisy Quantum Light
Overview: A simple coating cleans up noisy quantum light Quantum technologies demand perfection: one photon at a time, every time, with identical energy. Tiny deviations in the number or energy of photons can derail devices, threatening the performance of future quantum computers and a potential quantum internet. Northwestern University engineers have devised a novel strategy…
-
Molecular Coating Tames Noisy Quantum Light Emission
Overview: A cleaner, more reliable quantum light source Quantum technologies demand perfection: one photon at a time with identical energy. Even tiny variations in photon number or energy can derail devices and threaten the performance of quantum computers that may form a quantum internet. In response, Northwestern University engineers developed a simple, scalable solution that…