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Deposition of ultra-thin coatings by a nature-inspired Spray-on-Screen technology

Rachith Shanivarasanthe Nithyananda Kumar, Andrea Valencia Ramirez, Pieter Verding, Philippe Nivelle, Frank Uwe Renner, Jan D’Haen, Wim Deferme

2023Communications Engineering16 citationsDOIOpen Access PDF

Abstract

Abstract Nanometre-thick, ultrathin coatings applied over a large area are of paramount importance for various application fields such as biomedicine, space and automotive, organic electronics, memory devices, or energy storage devices. So far wet chemical deposition as a cost-effective, scalable, and versatile method can only be used for thicker deposits. Here the formation of uniform ultra-thin coatings with thicknesses below 15 nm using a nature-inspired, roll-to-roll compatible Spray-on-Screen (SoS) technology is reported. For this, the finite micro-droplet generation of Ultrasonic Spray Coating (USSC) is combined with the coating formation from a screen printing mesh. Hydrophobic micro-threads of the mesh, resembling the micro-hair on the legs of water striders, produce millidroplets from micro droplets, and when applying an external pressure to the mesh, dynamic wetting is enforced. The proposed technology is applicable for a wide variety of substrates and applications. It is shown by theory and experiment that ultra-thin coatings below 5 nm homogeneous over a large area can be deposited without the use of extended ink formulation or high substrate temperatures during or after deposition. This simple yet effective technique enables the deposition of ultra-thin films on any substrates, and is very promising to fabricate the organic, inorganic electronics devices and batteries cost effectively.

Topics & Concepts

Materials scienceDeposition (geology)NanotechnologyThin filmSubstrate (aquarium)DewettingWettingCoatingElectronicsNanometreOptoelectronicsComposite materialElectrical engineeringSedimentBiologyEngineeringGeologyPaleontologyOceanographySurface Modification and SuperhydrophobicityNanomaterials and Printing TechnologiesAdvanced Sensor and Energy Harvesting Materials