Implementing proteins in optoelectronics represents a fresh idea toward a sustainable new
class of materials with bio‐functions that can replace environmentally unfriendly and/or toxic …

Stable/efficient low‐energy emitters for photon down‐conversion in bio‐hybrid light‐emitting
diodes (Bio‐HLEDs) are still challenging, as the archetypal fluorescent protein (FP) mCherry …

This work presents a simple in situ synthesis and stabilization of fluorescent gold
nanoclusters (AuNCs) with different sizes using engineered protein scaffolds in water. The …

The application of fluorescent proteins (FPs) in optoelectronics is hindered by the need for
effective protocols to stabilize them under device preparation and operational conditions …

Stable and efficient high‐power biohybrid light‐emitting diodes (Bio‐HLEDs) using
fluorescent proteins (FPs) in photon downconverting filters have not been achieved yet …

Bio-hybrid light-emitting diodes (Bio-HLEDs) based on color down-converting filters with
fluorescent proteins (FPs) have achieved moderate efficiencies (50 lm/W) and stabilities …

This work discloses a radically new way to prepare white-emitting hybrid nanoparticles,
whose implementation in lighting devices provides encouraging proof-of-concept …

Although protein‐polymer phosphors are an emerging photon‐management filter concept
for hybrid light‐emitting diodes, deep‐red‐emitting devices based on archetypal fluorescent …

Hybrid light‐emitting diodes based on photon down‐converting filters with metal organic
frameworks (MOFs) are mainly restricted to cross‐breed materials (ie, nonemissive MOFs …

Fluorescent proteins (FPs) are heralded as a paradigm of sustainable materials for
photonics/optoelectronics. However, their stabilization under non‐physiological …