High-throughput shadow mask printing of passive electrical components on paper by supersonic cluster beam deposition

Caruso, Francesco; Bellacicca, Andrea; Milani, Paolo

doi:10.1063/1.4947281

Cited by 19 publications

(15 citation statements)

References 27 publications

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“…SCBD is an additive technology based on the production of intense and highly collimated nanoparticle beams that enables the large-scale and high throughput integration of nanostructured functional materials on a wide variety of substrates, including microfabricated platforms, smart nanocomposites and fragile materials. [59,64,[78][79][80][81] The assembling of carbon nanoparticles via SCBD is a suitable approach for the production of porous carbon thin films with structural and morphological properties that are beneficial for electrochemical applications. [82,83] The use of SCBD for the integration of carbon electrodes into conventional flexible substrates (e.g., Mylar) for the fabrication miniaturized devices, such as supercapacitors and electrolyte gated transistors, had been reported.…”

Section: Methodsmentioning

confidence: 99%

All‐Printed Green Micro‐Supercapacitors Based on a Natural‐derived Ionic Liquid for Flexible Transient Electronics

Migliorini

Piazzoni

Põhako‐Esko

et al. 2021

Adv Funct Materials

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The fabrication and characterization of green, flexible, and ultra-thin supercapacitors that are able to operate above 1.5 V is reported, using an all-printed fabrication process. The devices are produced by aqueous spray casting of a natural-derived electrolyte ionogel composed by 2-hydroxyethyl cellulose and by the ionic liquid choline lactate, while the electrodes are composed of highly porous nanostructured carbon films deposited by supersonic cluster beam deposition (SCBD). The obtained supercapacitors (device thickness < 10 μm) are stable to bending and they possess power values up to 120 kW kg -1 . The combination of aqueous spray casting and SCBD constitutes a versatile, scalable, and eco-friendly fabrication process able to directly print interconnected elements suitable for transient electronic systems.

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Section: Methodsmentioning

confidence: 99%

All‐Printed Green Micro‐Supercapacitors Based on a Natural‐derived Ionic Liquid for Flexible Transient Electronics

Migliorini

Piazzoni

Põhako‐Esko

et al. 2021

Adv Funct Materials

Self Cite

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“…[16] As upersonic cluster beam apparatus was also developed and used for the rapid prototyping of cluster-based electrical components. [17] In addition, high-…”

Section: Advances In Soft Landing Instrumentationmentioning

confidence: 99%

“…In particular, a new multi‐magnetron source was introduced which incorporates three separate metal targets that may be placed at controlled locations within one aggregation region . A supersonic cluster beam apparatus was also developed and used for the rapid prototyping of cluster‐based electrical components . In addition, high‐power impulse magnetron sputtering was shown to produce large currents of mass‐selected metal clusters .…”

Section: Advances In Soft Landing Instrumentationmentioning

confidence: 99%

From Isolated Ions to Multilayer Functional Materials Using Ion Soft Landing

et al. 2018

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The ability to deposit intact polyatomic ions with well-defined composition, charge state, and kinetic energy onto surfaces makes preparative mass spectrometry, also called ion soft landing, particularly attractive for preparing uniform molecular and ionic layers. Early studies characterized the structures, charge states, and reactivity of sparsely distributed soft-landed species. The recent development of high-flux ionization sources has opened up new opportunities for the precisely controlled preparation of both two-dimensional structures and three-dimensional multilayer architectures by ion soft landing. The deposition of large numbers of ions onto supports led to previously unknown phenomena being uncovered, thereby opening several exciting research directions. Furthermore, faster ion deposition has enabled fabrication of novel functional devices. This Review discusses important phenomena and highlights key developments pertaining to the preparation of well-defined interfaces for studies in energy storage, catalysis, soft materials, and biology.

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“…[16] Ferner wurde eine Überschallclusterstrahl-Apparatur entwickelt und für schnelle Prototypenerzeugung von clusterbasierten elektrischen Komponenten genutzt. [17] Zusätzlich wurde gezeigt, dass Hochleistungsimpuls-Magnetronsputtern große Strçme von massenselektierten Metallclustern produzieren kann. [18] Eine kürzlich entwickelte "Matrix Assembly Cluster Source" (MACS) erzeugt mehrere Nanoampere äquivalentem Strom bezogen auf den kombinierten Fluss von neutralen und geladenen Nanoclustern.…”

Section: Fortschritte Bei Der Entwicklung Von Instrumenten Fürdie Sanunclassified

Von isolierten Ionen zu mehrschichtigen funktionellen Materialien durch sanfte Landung von Ionen

et al. 2018

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Die Fähigkeit, mehratomige Ionen, bei denen Aufbau, Ladungszustand und kinetische Energie wohldefiniert sind, auf Oberflächen aufzutragen, macht die präparative Massenspektrometrie, auch “sanfte Landung von Ionen” (SLI) genannt, attraktiv für die Herstellung einheitlicher Molekül‐ und Ionenschichten. Nachdem in frühen Studien die Strukturen, Ladungszustände und Reaktivitäten von dünn verteilten, sanft gelandeten Arten charakterisiert wurden, haben Ionisationsquellen mit hohem Durchsatz neue Möglichkeiten eröffnet für die kontrollierte Herstellung zweidimensionaler Anordnungen und dreidimensionaler mehrschichtiger Gebilde durch SLI. Dadurch wurden zuvor unbekannte Phänomene entdeckt und aufregende neue Forschungsrichtungen eröffnet. Das schnellere Ablagern ermöglicht darüber hinaus die Herstellung von neuen funktionalen Objekten. Dieser Aufsatz diskutiert Entwicklungen in Bezug auf die Präparation wohldefinierter Schnittstellen für Studien zur Energiespeicherung, Katalyse, weiche Materialien und Biologie.

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High-throughput shadow mask printing of passive electrical components on paper by supersonic cluster beam deposition

Cited by 19 publications

References 27 publications

All‐Printed Green Micro‐Supercapacitors Based on a Natural‐derived Ionic Liquid for Flexible Transient Electronics

All‐Printed Green Micro‐Supercapacitors Based on a Natural‐derived Ionic Liquid for Flexible Transient Electronics

From Isolated Ions to Multilayer Functional Materials Using Ion Soft Landing

Von isolierten Ionen zu mehrschichtigen funktionellen Materialien durch sanfte Landung von Ionen

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