Mechanical, interface adhesion, and encapsulation design strategies for wearable and implantable optoelectronic devices (left). Cardiac healthcare applications of wearable and implantable ...

This study constitutes a demonstration of highly textured, large-area perovskite photodiodes integrated sturdily onto ...

The researchers say that their LnNP based LEDs will allow for widely tuneable EL properties by changing the type and ...

Optoelectronics is founded on the principles of quantum mechanics and the interaction of photons with semiconductors. Semiconductor materials, such as silicon and gallium arsenide, play a central role ...

2D organic-inorganic heterojunctions for applications in the field of multifunctional optoelectronic devices, including electronic devices, molecular switches, photodetectors, memory devices, ...

This graphic shows how the Lewis acid treatment, p-type doping, and tin chloride concentrations and their effects on palladium diselenide, used in transistors for optoelectronic devices. Credit: Nano ...

Conducting polymers have emerged as a pivotal class of materials for advanced optoelectronic applications owing to their tunable molecular structure, ...

Artificial intelligence (AI) is known for its high energy consumption, especially in data-intensive tasks like health monitoring. To address this, researchers have developed a flexible paper-based ...

Researchers created the world's smallest fully printed infrared photodetectors using room-temperature nano-printing, enabling ...

Quantum dots, tiny semiconductors with tunable properties, are redefining optoelectronics by advancing infrared sensing, bioimaging, solar energy, and more with greater efficiency and lower ...