Latest Articles for Nanotechnology

Research reveals how excitons move in quantum dots, influencing technology advancements.

PtBi surfaces show superconductivity, paving the way for Majorana fermions in quantum devices.

Helical trilayer graphene shows potential for unique electronic behaviors and states of matter.

A new method enhances GW calculations using machine learning for better efficiency.

Research on dice lattices reveals unique electronic and magnetic properties.

Research unveils critical insights into charge density waves and electronic properties of VTe.

Researchers investigate the unique behaviors of equal-twist trilayer graphene.

Exploring the unique properties of excitons in transition metal dichalcogenides.

Exploring the role of excitons and CARS in carbon nanotube applications.

Research shows doping Fe GeTe with nickel significantly increases its Curie temperature.

A detailed look at the critical interface of GaP and Si materials.

Researchers study weak-links in superconductors to improve electronic device performance.

This study examines the stability of a unique oxide structure for new material applications.

Study reveals persistent ferromagnetism in LaCrAsO despite high hole doping levels.

Exploring how information is transformed into energy using nanotech models.

New spectroscopic techniques enhance understanding of quantum materials.

Research explores germanium's potential as a superconductor through hyperdoping techniques.

Research reveals how materials shrink or expand based on temperature.

Researchers investigate microbubble wall structures to enhance optical sensing applications.

A look at new techniques for studying nanoscale materials.

New methods improve the accuracy of DNA origami structures for various applications.

Study reveals unexpected optical effects in two-leg Mott insulators under light exposure.

Explore how oxygen vacancies in titania affect its properties and applications.

Researchers develop a cost-effective way to manage magnetic properties in silicon-based materials.

Research on nickel-silicon interfaces opens new doors for spintronic devices.

Research highlights methods for creating boron vacancies in hBN and their potential uses.

This research examines how materials transform from insulating to metallic states under light.

Exploring the unique transition of vanadium oxide from insulator to metal.

Research reveals new methods for creating patterned defects in 2D materials.

Research shows how polymer nanowires enhance photon collection from quantum dots.

New insights into how borophene interacts with metal surfaces for electronic applications.

Examining how magnetic fields influence superconductors and their properties.

Research reveals insights into how polymers navigate through varied channel structures.

Research reveals complex behaviors of polymer chains near solid surfaces.

A study on how particles organize themselves through soft disc potential.

Nanoribbons exhibit fascinating properties under force and temperature changes, impacting technology.

This study investigates spin interactions in connected double quantum dots for quantum computing.

Exploring Majorana nanowires and their potential role in quantum computing.

Study reveals the unique properties and ordered states of twisted bilayer graphene.

Researchers investigate the impact of disorder on Majorana nanowires for future computing.