Latest Articles for Nanotechnology

Study reveals complex interactions between defects and polarons in rutile TiO(110).

A new quadrature microwave antenna improves control over diamond NV centers.

Investigating how missing atoms affect electronic properties in 2D materials.

Research advances the understanding of quantum spin liquids and Majorana fermions using the spin Seebeck effect.

This research unveils the behavior of ferroelectric superlattices under varying temperatures.

Research reveals insights on NV centers and their charge cycling under different light conditions.

Ionic liquid crystals offer new prospects in energy storage and advanced materials.

This article examines topological defects, specifically solitons, and their impact on material properties.

New model improves accuracy and speed in atomic-level research.

Study reveals how tiny movements in graphene layers affect heat exchange efficiency.

Researchers are studying toroidal dipoles for advancements in technology and materials.

Hexagonal materials show promise in combining magnetic and electric properties for modern electronics.

A look into the unique electronic behaviors of biphenylene network materials.

Exploring the fascinating properties and potential applications of topological insulators.

Innovative methods improve operations in silicon quantum dot arrays using shuttling techniques.

Research reveals altermagnetic properties of RuF, advancing spintronic applications.

Research explores DNA tetrahedrons' effects on tumor-associated macrophages for cancer treatment.

Twisted bilayer graphene reveals unique electronic states and behaviors under magnetic fields.

Research focuses on improving the growth of InAs nanowires using a new model.

A new method improves atom array setups for quantum computing.

Research improves spin coherence times in diamond, enhancing quantum technology applications.

Investigating how current-induced forces change energy flow in small systems.

Recent studies reveal surprising transitions in cuprate materials from superconductors to metals.

Research reveals low-energy transitions in CeAgGe linked to crystal electric fields.

Examining how light affects electrical properties of vanadium oxides and their applications.

Research on FAPbI3 nanocubes reveals new insights into excitons and material properties.

Research into phonons and 2DEG holds promise for quantum technology advances.

Exploring how charged polymers enhance DNA sequencing technologies.

Researchers investigate unique magnetic properties of altermagnets and their potential uses.

Investigating unique behaviors of quantum systems through Bose-Einstein condensates and nanomechanics.

New algorithms cut data needs for detailed molecular imaging.

Researchers leverage nanoparticles to track movement and behavior within cells.

Exploring the unique superconducting properties of twisted bilayer graphene.

Examining how DMI influences magnetic properties in iron germanium nanoparticles.

Recent research challenges established views on magnetoresistance in chiral materials.

Exploring the benefits and advancements of spintronics in electronics.

Research reveals the impact of chromium doping on silicene's properties for advanced technology.

Exploring unique properties and applications of transition metal dichalcogenides in electronics.

This study examines how temperature affects the magnetic behavior of CrSiTe.

Vanadium dioxide exhibits rapid phase transitions with significant implications for technology.