Latest Articles for Optoelectronics

This study investigates exciton behavior in semiconductor nanocrystals within optical cavities.

MECSELs offer tunable, cost-effective lasers for diverse applications.

Iodinenes offer unique properties for future technological advancements.

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

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

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

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

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.

Vanadium dioxide shows potential for advanced technology due to its special properties.

Biaxial nematic liquid crystals offer unique properties for advanced technology applications.

This study explores charge carrier behavior in WSe and GaAs for advanced devices.

Research reveals WSe2's behavior under magnetic fields, highlighting its electronic properties.

This article explores interactions between light and two-dimensional materials, focusing on exciton-polariton condensates.

Research reveals methods to manipulate the phases of InAs/GaSb materials using light and electric fields.

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

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

New methods reveal detailed electronic states in bilayer CrX materials.

An overview of nanocrystals and their role in light technologies.

A look into the unique properties and potential applications of multi-gap topological insulators.

Exploring stable divacancies in silicon carbide for quantum computing applications.

A look at the excitonic effects and optical behavior of monolayer WSe.

Carbon in hBN creates stable defects for single photon emission, aiding quantum tech.

Research on graphene and hBN offers potential for ultra-sensitive sensors.

Research explores how excitons in nanocrystals affect light emission and brightness.

Exploring the unique properties of ZnO for various technological applications.

New insights into bilayer graphene's electronic and optical properties reveal exciting applications.

Research focuses on improving electricity generation from light using lasers and advanced materials.

Research reveals new ways to control light in layered materials.

This article explores high-harmonic generation in zinc oxide under intense laser pulses.

New methods allow precise control of chiral edge states in the Quantum Hall effect.

AlSi compounds show unique properties due to Weyl fermions, sparking interest in advanced technologies.

NbN thin films show promise in electronics and optical technologies due to their unique properties.

Examining energy movement in metal halide perovskites for improved optoelectronic applications.

Studying excitons in twisted hBN reveals new light-emitting properties.

Exploring exciton dissociation for better solar cells and LEDs.

A look into measuring chirality and its impact on crystalline materials.

Research reveals promising 2D ferroelectric materials for future electronics.

CdSe nanoplatelets offer exciting optical properties for various applications in technology.

This study investigates how strain affects the electronic properties of monolayer MoS.