Latest Articles for Energy Solutions

Improving wave energy tech through innovative design and optimization techniques.

Examining the impact of ITG modes on turbulence in fusion devices.

An overview of niobium-based superconductors and their applications in modern technology.

New methods improve efficiency and performance in fusion devices.

This paper examines how Janus rods organize based on shape and bonding.

A new tool boosts the search for materials with flat electronic bands.

Exploring the intersection of quantum computing and molecular chemistry for innovative solutions.

Elastic metamaterials offer new ways to control sound and vibrations.

A new approach combines multiple shielding technologies for safer space missions.

This research examines how boron impacts hydrogen behavior at grain boundaries in steel.

A new tool improves analysis and production of gold nanorods for various applications.

Research reveals unique ion behavior in tapered nanoslits under electric fields.

Modeling the scrape-off layer in W7-X enhances fusion energy research.

A method to align energy designs with stakeholder needs through human input.

The integration of RIS and SWIPT enhances energy efficiency in IoT devices.

Examining how temperature influences electron and hole behavior in CsPbI nanocrystals.

Research highlights nitrogen hydrates for efficient gas storage and transportation.

Research presents innovative technique for understanding entanglement in complex quantum systems.

ZGNRs show promise for improving energy harvesting and cooling technologies.

A new method using deep learning speeds up stellarator design for fusion energy.

AUGUR simplifies finding optimal spots for molecular attachment using advanced techniques.

Investigating how adatoms influence superconducting states and magnetic properties.

Explore how energy sharing can save money and promote sustainability.

Discover the surprising behaviors of superconductivity and their implications for technology.

NV centers in diamonds offer unique insights and applications across various scientific fields.

Researchers use machine learning to speed up the discovery of new materials.

Discover how robots can charge without wires in tricky environments.

Examining MoSe/WSe heterostructures and their unique properties influenced by twist angles.

Researchers unveil how light behaves in materials with tiny resonators.

Drones powered by holographic surfaces promise better communication and energy efficiency.

New techniques are optimizing stellarators, enhancing their performance for fusion energy production.

NSFsim helps scientists manage plasma shapes for better fusion energy.

Discover the unique interactions of superconductivity and magnetism in EuFe(As,P).

Discover the fascinating world of nanostructures and their impact on technology.

Discover how nanocrystals are changing technology through deep learning.

Scientists seek to deliver energy on the Moon using lasers.

Learn how district heating systems promote sustainability and energy efficiency.

Discover how machine learning transforms ICF experiments and material understanding.