To develop the technology, the researchers built a sensor by embedding upconversion optical probes into three-dimensional ...

Electrochemical stimuli-responsive materials are gaining more attention in the world of display technology. Based on external ...

The hydrogel sensor developed by the research team is based on a probe made from UCNPs and modified eosin B (mEB), operating through a fluorescence resonance energy transfer (FRET) mechanism.

Researchers introduce an innovative device that combines light emission and color control with clay compounds, offering a ...

Electrochemical reaction-based stimuli-responsive materials are shaping up the era of innovative display devices. By embedding luminescent europium(III) complexes and color-changing viologen ...

Fluorescence is also employed in Förster resonance energy transfer (FRET) to detect biopolymer interactions and conformational changes. The effects of magnetic fields on quantum entangled ...

The use of clay-based materials highlights an eco-friendly approach to enhancing electronic device performance.

This dual-mode performance is achieved through mechanisms such as fluorescence resonance energy transfer and the inner filter effect, which ensure effective interaction between the components.

The world of display technology is on the cusp of a transformative breakthrough, with electrochemical stimuli-responsive materials gaining more ...

This article explores methods to enhance efficiency in the drug discovery and development pipeline, focusing on optimizing ...

For each structural strain of tau fibrils, they identified amino acids without which the strain cannot form its signature ...