Progress in Inkjet-Printed Sensors and Antennas

Sandry, Caden Tyler; Shila, Sharmin; Gonzalez-Jimenez, Leobardo; Martinez, Sebastian; Sekhar, Praveen

doi:10.1149/2.f12234if

Electrochem. Soc. Interface

2023

DOI: 10.1149/2.f12234if

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Progress in Inkjet-Printed Sensors and Antennas

Caden Tyler Sandry,

Sharmin Shila,

Leobardo Gonzalez-Jimenez

et al.

Abstract: In recent years, inkjet printing has become a popular form for creating sensors and antennas. These devices are fabricated using different materials with inkjet printing using various (conductive, oxide, biological) inks on predominantly flexible substrate. This form of fabrication has attracted much attention for a variety of reasons such as relatively cheap cost of manufacturing and materials, as well as the ease of use and high customization. These devices also provide a lighter frame and added flexibility … Show more

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Pushing Patterning Limits of Drop‐On‐Demand Inkjet Printing with Cspbbr₃/PDMS Nanoparticles

Cai,

Lai,

Chen

et al. 2024

Laser & Photonics Reviews

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Patterning is crucial for advancing perovskite materials into color conversion micro‐display applications, but achieving inkjet‐printed patterns with high performance and precision remains challenging. Here, novel CsPbBr3/PDMS nanoparticles as a promising candidate is proposed for achieving precise and perfect inkjet printing patterns. The as‐prepared nanoparticles ensure exceeding brightness, exceptional stability, uniform fluorescence emission, and high resolution reaching the highest performance of drop‐on‐demand inkjet printing. Specifically, the performance and stability of CsPbBr3/PDMS nanoparticles are enhanced through a two‐step optimization involving dodecyl benzene sulfonic acid (DBSA) ligand modification and polydimethylsiloxane (PDMS) in situ coating, resulting in the highest photoluminescence quantum yield (PLQY) of 92% among CsPbBr3/polymer core‐shell composites so far. The branched structure of DBSA and the PDMS shell provide steric hindrance and effectively prevent agglomeration during storage or patterning. The viscous PDMS coating inhibits the coffee ring effect, not only leading to excellent near‐unity uniform emission but also promoting the formation of smaller and more elaborate droplets, increasing the printing resolution by up to surprisingly 300%. Importantly, the impeccably displayed, high‐resolution patterns formed by versatile CsPbBr3/PDMS nanoparticles have demonstrated significant potential for high pixel density Micro‐LED displays, enabling efficient and stable color conversion.

show abstract

Pushing Patterning Limits of Drop‐On‐Demand Inkjet Printing with Cspbbr₃/PDMS Nanoparticles

Cai,

Lai,

Chen

et al. 2024

Laser & Photonics Reviews

View full text Add to dashboard Cite

show abstract

Biodegradable and Renewable Antennas for Green IoT Sensors: A Review

Zahedi,

Liyanapathirana,

Thiyagarajan

2024

IEEE Access

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Progress in Inkjet-Printed Sensors and Antennas

Cited by 2 publications

References 56 publications

Pushing Patterning Limits of Drop‐On‐Demand Inkjet Printing with Cspbbr₃/PDMS Nanoparticles

Pushing Patterning Limits of Drop‐On‐Demand Inkjet Printing with Cspbbr₃/PDMS Nanoparticles

Biodegradable and Renewable Antennas for Green IoT Sensors: A Review

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Progress in Inkjet-Printed Sensors and Antennas

Cited by 2 publications

References 56 publications

Pushing Patterning Limits of Drop‐On‐Demand Inkjet Printing with Cspbbr3/PDMS Nanoparticles

Pushing Patterning Limits of Drop‐On‐Demand Inkjet Printing with Cspbbr3/PDMS Nanoparticles

Biodegradable and Renewable Antennas for Green IoT Sensors: A Review

Contact Info

Product

Resources

About

Pushing Patterning Limits of Drop‐On‐Demand Inkjet Printing with Cspbbr₃/PDMS Nanoparticles

Pushing Patterning Limits of Drop‐On‐Demand Inkjet Printing with Cspbbr₃/PDMS Nanoparticles