Latest Articles for Nanotechnology

Exploring the potential of halide double perovskites in solar cells and LEDs.

A study on rare events, convergence, and feedback control in nanoparticle systems.

Research reveals how twisted layers alter electronic properties and enable fractional quantum effects.

Research on bismuthene reveals how magnetic impurities influence electrical properties.

Examining high-harmonic generation to reveal material behaviors and applications.

Exploring the complex behaviors of graphene under strong magnetic fields.

Researchers develop RNA structures to create functional synthetic cells.

Research reveals how strain affects electronic properties in 2D materials like WSe2.

Research examines how laser heating affects particle interactions in fluid mixtures.

This article explores how light momentum behaves in various natural light situations.

A look into grain boundaries and facet formation in materials.

Researchers aim to manage electron behavior in graphene for practical uses.

Researchers unveil cobalt defects in WS2 for next-gen quantum technologies.

Researchers create larger alginate droplets to enhance cell encapsulation and support healing.

Examining how giant fullerenes can enhance high-order harmonic generation.

Study reveals how magnetic fields affect electrical currents and resistance in LaTiO/SrTiO interfaces.

DAISY provides a new way to measure nanoparticles in complex environments.

Research reveals potential applications of antiferromagnetic skyrmions in modern technology.

Research on quantum dots reveals their potential for advanced technologies and communication.

Investigating moiré patterns reveals potential advancements in materials and electronics.

New insights into MATBG's electronic behavior could lead to advanced electronic technologies.

Research on nanographenes reveals insights into magnetism and electrical conduction.

A look into how light alters electron and phonon behavior in graphene.

Study reveals insights on electron movement in GaN/AlGaN structures for better devices.

Study explores factors affecting hole movement in superlattices for improved device performance.

Study of topological insulators reveals new electronic behaviors influenced by magnetism.

Mn Sn shows promise for advanced electronic applications due to its magnetic properties.

Exploring electron behaviors in materials through the ionic Hubbard model.

Explore numerical optimization techniques to enhance light manipulation in nanophotonic structures.

Examining how small polarons influence material behavior for electronics and energy.

Charge Density Waves reveal new possibilities in material behavior under electric currents.

Research reveals key effects in polar metals, highlighting novel properties and potential applications.

New insights into the interaction between TMDCs and plasmonic crystals.

Exploring THz magnon frequency combs in antiferromagnetic materials for future applications.

Exploring the unique characteristics and potential applications of carbon nanotubes.

Research on Majorana zero modes offers insights into future quantum computing.

New insights into electron behavior promise better technology and medical applications.

New design offers efficient small lasers using quantum dots for communication and sensing.

MgTe (110) shows potential for spintronic applications in modern electronics.

An overview of topological semimetals and their special properties.