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

This Collection supports and amplifies research related to SDG 9 – Industry, innovation & infrastructure. Semiconductor optoelectronic devices are at the forefront of technological innovation, ...

Wavelength-selective photodetectors are essential for next-generation wearable electronics, optical sensing, and multispectral imaging, yet most flexible devices still rely on external optical filters ...

A new publication from Opto-Electronic Advances; DOI 10.29026/oea.2025.240159, discusses on-chip light control of semiconductor optoelectronic devices using integrated metasurfaces. Since the initial ...

Scientists have created a new type of material that could enable common electronic devices to work faster and use less energy ...

A joint US and Singapore research program has been created to develop next-generation 3D-sensing and machine vision systems. The Wafer-scale Integrated Sensing Devices based on Optoelectronic ...

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

http://www.keithley.comAs the price of optoelectronic devices continues to fall, and as margins remain tight for manufacturers, testing economies will be vital. As ...

Researchers have developed hole transport materials such as Spiro-OMeTAD, NiOx, PEDOT:PSS, and PTAA. Common electron transport materials include TiO 2, ZnO, SnO 2, C 60, and PC 61 BM. Applications of ...

Using SLAC's instrument for ultrafast electron diffraction (MeV-UED), one of the lab's world-leading tools for ultrafast science, researchers discovered how an ultrathin material can circularly ...