Simone Bertucci scite author profile

Solution processing of highly performing photonic crystals has been a towering ambition for making them technologically relevant in applications requiring mass and large-area production. It would indeed represent a paradigm changer for the fabrication of sensors and for light management nanostructures meant for photonics and advanced photocatalytic systems. On the other hand, solution-processed structures often suffer from low dielectric contrast and poor optical quality or require complex deposition procedures due to the intrinsic properties of components treatable from solution. This work reports on a low-temperature sol–gel route between the alkoxides of Si and Ti and poly(acrylic acid), leading to stable polymer–inorganic hybrid materials with tunable refractive index and, in the case of titania hybrid, photoactive properties. Alternating thin films of the two hybrids allows planar photonic crystals with high optical quality and dielectric contrast as large as 0.64. Moreover, low-temperature treatments also allow coupling the titania hybrids with several temperature-sensitive materials including dielectric and semiconducting polymers to fabricate photonic structures. These findings open new perspectives in several fields; preliminary results demonstrate that the hybrid structures are suitable for sensing and the enhancement of the catalytic activity of photoactive media and light emission control.

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Intelligent Packaging for Real-Time Monitoring of Food-Quality: Current and Future Developments

Dodero

Escher

Bertucci

et al. 2021

Applied Sciences

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Food packaging encompasses the topical role of preserving food, hence, extending the shelf-life, while ensuring the highest quality and safety along the production chain as well as during storage. Intelligent food packaging further develops the functions of traditional packages by introducing the capability of continuously monitoring food quality during the whole chain to assess and reduce the insurgence of food-borne disease and food waste. To this purpose, several sensing systems based on different food quality indicators have been proposed in recent years, but commercial applications remain a challenge. This review provides a critical summary of responsive systems employed in the real-time monitoring of food quality and preservation state. First, food quality indicators are briefly presented, and subsequently, their exploitation to fabricate intelligent packaging based on responsive materials is discussed. Finally, current challenges and future trends are reviewed to highlight the importance of concentrating efforts on developing new functional solutions.

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High Quality Factor in Solution-Processed Inorganic Microcavities Embedding CsPbBr₃ Perovskite Nanocrystals

Bertucci

Escher

Cirignano

et al. 2023

ACS Appl. Opt. Mater.

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Optical microcavities grant manipulation over light−matter interactions and light propagation, enabling the fabrication of foundational optical and optoelectronic components. However, the materials used for high-performing systems, mostly bulk inorganics, are typically costly, and their processing is hardly scalable. In this work, we present an alternative way to fabricate planar optical resonators via solely solution processing while approaching the performances of conventional systems. Here, we couple fully solution-processed high dielectric contrast inorganic Bragg mirrors obtained by sol−gel deposition with the remarkable photoluminescence properties of CsPbBr 3 perovskite nanocrystals. The approach yields microcavities with a quality factor of ∼220, which is a record value for solution-processed inorganic structures, and a strong emission redistribution resulting in a 3-fold directional intensity enhancement.

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Solution Processed Inorganic Oxides: High Performing Hybrid Materials For Photonics

Bertucci

Megahd

Dodero

et al. 2022

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Simone Bertucci

Mild Sol–Gel Conditions and High Dielectric Contrast: A Facile Processing toward Large-Scale Hybrid Photonic Crystals for Sensing and Photocatalysis

Intelligent Packaging for Real-Time Monitoring of Food-Quality: Current and Future Developments

High Quality Factor in Solution-Processed Inorganic Microcavities Embedding CsPbBr₃ Perovskite Nanocrystals

Solution Processed Inorganic Oxides: High Performing Hybrid Materials For Photonics

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Simone Bertucci

Mild Sol–Gel Conditions and High Dielectric Contrast: A Facile Processing toward Large-Scale Hybrid Photonic Crystals for Sensing and Photocatalysis

Intelligent Packaging for Real-Time Monitoring of Food-Quality: Current and Future Developments

High Quality Factor in Solution-Processed Inorganic Microcavities Embedding CsPbBr3 Perovskite Nanocrystals

Solution Processed Inorganic Oxides: High Performing Hybrid Materials For Photonics

Contact Info

Product

Resources

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High Quality Factor in Solution-Processed Inorganic Microcavities Embedding CsPbBr₃ Perovskite Nanocrystals