Core–Shell Structured Fluorescent Protein Nanoparticles: New Paradigm Toward Zero‐Thermal‐Quenching in High‐Power Biohybrid Light‐Emitting Diodes

Mattia Nieddu; Marta Patrian; Sara Ferrara; Juan Pablo Fuenzalida Werner; Fabian Kohler; Eduardo Anaya‐Plaza; Mauri A. Kostiainen; Hendrik Dietz; Jesús Rubén Berenguer; Rubén D. Costa

doi:10.1002/advs.202300069

Advanced Science (Jun 2023)

Core–Shell Structured Fluorescent Protein Nanoparticles: New Paradigm Toward Zero‐Thermal‐Quenching in High‐Power Biohybrid Light‐Emitting Diodes

Mattia Nieddu,
Marta Patrian,
Sara Ferrara,
Juan Pablo Fuenzalida Werner,
Fabian Kohler,
Eduardo Anaya‐Plaza,
Mauri A. Kostiainen,
Hendrik Dietz,
Jesús Rubén Berenguer,
Rubén D. Costa

Affiliations

Mattia Nieddu: Chair of Biogenic Functional Materials Technical University of Munich Schulgasse, 22 94315 Straubing Germany
Marta Patrian: Chair of Biogenic Functional Materials Technical University of Munich Schulgasse, 22 94315 Straubing Germany
Sara Ferrara: Chair of Biogenic Functional Materials Technical University of Munich Schulgasse, 22 94315 Straubing Germany
Juan Pablo Fuenzalida Werner: Chair of Biogenic Functional Materials Technical University of Munich Schulgasse, 22 94315 Straubing Germany
Fabian Kohler: Laboratory for Biomolecular Nanotechnology Department of Physics Technical University of Munich Am Coulombwall 4a 85748 Garching Germany
Eduardo Anaya‐Plaza: Department of Bioproducts and Biosystems School of Chemical Engineering Aalto University Kemistintie 1 Espoo 02150 Finland
Mauri A. Kostiainen: Department of Bioproducts and Biosystems School of Chemical Engineering Aalto University Kemistintie 1 Espoo 02150 Finland
Hendrik Dietz: Laboratory for Biomolecular Nanotechnology Department of Physics Technical University of Munich Am Coulombwall 4a 85748 Garching Germany
Jesús Rubén Berenguer: Departamento de Química‐Centro de Investigación en Síntesis Química (CISQ) Universidad de La Rioja Madre de Dios 53 Logroño E‐26006 Spain
Rubén D. Costa: Chair of Biogenic Functional Materials Technical University of Munich Schulgasse, 22 94315 Straubing Germany

DOI: https://doi.org/10.1002/advs.202300069
Journal volume & issue: Vol. 10, no. 16
pp. n/a – n/a

Abstract

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Abstract Stable and efficient high‐power biohybrid light‐emitting diodes (Bio‐HLEDs) using fluorescent proteins (FPs) in photon downconverting filters have not been achieved yet, reaching best efficiencies of 130 lm W−1 stable for >5 h. This is related to the rise of the device temperature (70–80 °C) caused by FP‐motion and quick heat‐transmission in water‐based filters, they lead to a strong thermal emission quenching followed by the quick chromophore deactivation via photoinduced H‐transfer. To tackle both issues at once, this work shows an elegant concept of a new FP‐based nanoparticle, in which the FP core is shielded by a SiO2‐shell (FP@SiO2) with no loss of the photoluminescence figures‐of‐merit over years in foreign environments: dry powder at 25 °C (ambient) or constant 50 °C, as well as suspensions in organic solvents. This enables the preparation of water‐free photon downconverting coatings with FP@SiO2, realizing on‐chip high‐power Bio‐HLEDs with 100 lm W−1 stable for >120 h. Both thermal emission quenching and H‐transfer deactivation are suppressed, since the device temperature holds 100 h). Hence, FP@SiO2 is a new paradigm toward water‐free zero‐thermal‐quenching biophosphors for first‐class high‐power Bio‐HLEDs.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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