Latest Articles for Energy Technology

Explore how chemical reactions affect fluid behaviors in thin films.

Research on PbTe-based HEAs reveals insights into atomic movement and defect formation.

Inverters are essential for converting renewable energy to usable electricity.

New methods improve predictions of lattice thermal conductivity in materials.

Learning from nature could improve energy systems and promote sustainability.

Combining AI with simulations to enhance fusion energy research.

Scientists study how solar panels may indicate extraterrestrial technology.

Silver-based chalcohalides show potential for sustainable energy applications due to unique properties.

New methods improve insights into excitons for better technology applications.

MgIrH shows potential for high-temperature superconductivity at normal pressures.

A new interface enhances molecular dynamics simulations under realistic conditions.

A look at how energy storage and transmission impact electricity supply.

Exploring how packing density affects electrical conduction in quantum dot materials.

DyTe's tellurium vacancies influence its electrical behavior and potential in electronics.

Quantum batteries could transform energy storage with fast charging and high capacity.

Using GNNs to predict optical properties of materials improves device design.

Researchers develop a new approach utilizing quantum devices to compute excited states efficiently.

New method improves accuracy in simulating plasma and neutral particle interactions.

Researchers modify YBCO films using helium ions to improve superconducting properties.

New cooling strategies enhance safety and performance of lithium-ion batteries in vehicles.

This article examines how small variations influence superconductors and their behavior.

New method enhances prediction of crystal structures in complex materials.

Insights into how quantum metrics and optical conductivity shape material behavior.

Exploring new techniques for studying fluid movement in porous materials.

Research reveals the graphene-water interface is acidic, impacting ion behavior.

N²AMD framework enhances accuracy and efficiency in studying material dynamics.

Solar and wind power emerge as key players in clean energy solutions.

A new method to classify magnetic fields improves fusion energy efficiency.

High-entropy alloys show potential for efficient catalysts in clean energy applications.

New findings in flat bands may lead to advanced technologies.

Research uncovers hydrogen's impact on superconductivity in lanthanum superhydrides.

Recent studies reveal charge transfer can occur in just a few femtoseconds.

Examining how temperature affects charge transport in perovskite materials for enhanced technology performance.

New method enhances the absorption of electromagnetic waves using time-varying materials.

Current limiting methods can improve the stability of Virtual Synchronous Generators.

Investigating how hydrogen affects metal strength and ductility in various applications.

Scientists study natural light harvesting to improve energy transfer technologies.

Negative triangularity reactors may enhance fusion efficiency and performance.

This study connects quantum thermodynamics and density functional theory to explore energy dynamics.

VQCrystal improves the search for stable crystal structures in material science.