Physics, Deep Tech, Emerging Technology

University of Eastern Finland Demonstrates 2D-Material Photodetectors on Silicon Nitride Chips

by Dr. DonovanApril 2, 2026
Technology

Anomalous 2D Band Decay in TERS Reveals Liquid Meniscus Formation

by Muhammad Rohail T.January 21, 2026
Quantum Research News

Stanford Researchers Develop Scalable Method for High-Quality Moire Superlattices

by Dr. DonovanJanuary 17, 2026
Technology

3d Cavity Integration Advances Graphene Superconducting Quantum Circuits with 17.63ns Fidelity

by Muhammad Rohail T.January 1, 2026
Technology

High Throughput Prediction of Moiré Materials Achieves Rapid Analysis of 10,000-Atom Twisted Structures

by Muhammad Rohail T.December 22, 2025
Quantum Sensors

2D Materials Unlock Quantum Simulation, Harnessing Unique Phenomena for Next-Generation Devices

by Muhammad Rohail T.December 19, 2025
Deep Tech

Chemical Engineering Enables Altermagnetism in Two-Dimensional Metal-Organic Frameworks

by Muhammad Rohail T.December 18, 2025
Technology News

Study Reveals Key Traits for Long-Lasting Qubit Coherence

by Dr. DonovanDecember 9, 2025
Quantum Mechanics

Perfect Impedance Matching Enables Sensitive Radio-Frequency Reflectometry in 2D Material Quantum Dots

by Muhammad Rohail T.December 4, 2025
Technology

Hexagonal Boron Nitride Nanochannels Enable Biomolecule Localization and Imaging Via Wrinkle-Induced Confinement

by Muhammad Rohail T.November 6, 2025
Technology

Electrochemical Hydrogenation of Graphene Achieves Reversible Transitions and Enhanced Rates Via Lattice Corrugations

by Muhammad Rohail T.October 31, 2025
Quantum Research News

Hbn Nanoflakes Achieve AC Magnetic Sensitivity of 1.1e-9 at 1e15 Ions/cm² Via Optimized Irradiation

by Muhammad Rohail T.October 21, 2025
Physics

Tunable Van Der Waals Heterostructures Align Electronic Levels and Reveal Exciton Diversity in 2D Materials

by Muhammad Rohail T.October 8, 2025
Technology News, Quantum Research News

Tetralayer Graphene Exhibits Nonvolatile Switching Between Paramagnetism and Ferromagnetism Via Gate-Induced Sliding

by Muhammad Rohail T.October 7, 2025
Physics

Researchers Unlock 2D Janus Materials for Energy Storage and Information Solutions Beyond Moore’s Era

by Dr. DonovanSeptember 1, 2025
Physics

Researchers Uncover 17 Anomalous Transport Properties in 2D Materials, Breaking Major Symmetries

by Dr. DonovanAugust 31, 2025
Quantum Machine Learning

Van der Waals Confinement Drives Anisotropic Crystallization in Two-Dimensional Bismuth Layers

by Dr. DonovanAugust 12, 2025
Physics

Peaks Python Package Streamlines Analysis of Angle-Resolved Photoemission Spectroscopy Data

by Dr. DonovanAugust 12, 2025
Physics

Terahertz Nutation Waves Reveal Spin Inertia Strength in 2D Magnet Heterostructures

by Dr. DonovanAugust 5, 2025
Quantum Research News

Illinois Engineers Visualize Atomic Vibrations in 2D Materials

by Dr. DonovanJuly 27, 2025
Quantum Research News

Superatom Internal Degrees of Freedom Enable Two-Dimensional Spin-Split Antiferromagnets

by Dr. DonovanJuly 23, 2025
Technology

All-2D Transition Metal Dichalcogenide Nanosheets Enhance Raindrop Energy Harvesting.

by Dr. DonovanJuly 14, 2025
Quantum Mechanics

Machine Learning Accurately Predicts Material Properties, Capturing Complex Quantum Interactions.

by Dr. DonovanJuly 14, 2025
Quantum Research News

Machine Learning Predicts Quantum Transport in Disordered 2D Materials.

by Dr. DonovanJune 11, 2025
Technology News

Non-Reciprocal Response in Silicon Photonic Resonators Integrated with 2D CuCrP2S6 at Short-Wave Infrared

by Dr. DonovanApril 14, 2025
Technology

Flexible Electronics: Revolutionizing Wearable Technology

by Dr. DonovanNovember 3, 2024
Technology News

Researchers Develop Method to Detect Atomic Defects in Nanomaterials

by Dr. DonovanOctober 22, 2024
Deep Tech

Quantum Dots Pioneering Nanotechnology with Quantum Applications

by Dr. DonovanAugust 15, 2024
Quantum Research News

Cambridge Scientists Uncover Quantum Potential in 2D Material’s Single Atomic Defect

by Dr. DonovanMay 21, 2024
Quantum Hardware

NTT Research and Partners Unveil Electrically Controlled Quantum Dots for Advanced Photonics

by Dr. DonovanMarch 28, 2024
Technology News

RIKEN Physicists Develop Quantum Device from Single 2D Material, paving the way for Quantum Computing

by The QuantDecember 10, 2023
Physics, Technology News

University of Rochester Scientists Develop Fast, High-Density, Low-Power Hybrid Computing Memory. The Memristor.

by SchrödingerDecember 6, 2023