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Integrated Circuits Comprising Patterned Functional Liquids

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Mannhart,  J.
Department Solid State Quantum Electronics (Jochen Mannhart), Max Planck Institute for Solid State Research, Max Planck Society;

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Citation

Prasad, B., Pfanzelt, G., Fillis-Tsirakis, E., Zachman, M. J., Kourkoutis, L. F., & Mannhart, J. (2018). Integrated Circuits Comprising Patterned Functional Liquids. Advanced Materials, 30(35): 1802598.


Cite as: https://hdl.handle.net/21.11116/0000-000E-D1DC-E
Abstract
Solid-state heterostructures are the cornerstone of modern electronics. To enhance the functionality and performance of integrated circuits, the spectrum of materials used in the heterostructures is being expanded by an increasing number of compounds and elements of the periodic table. While the integration of liquids and solid-liquid interfaces into such systems would allow unique and advanced functional properties and would enable integrated nanoionic circuits, solid-state heterostructures that incorporate liquids have not been considered thus far. Here solid-state heterostructures with integrated liquids are proposed, realized, and characterized, thereby opening a vast, new phase space of materials and interfaces for integrated circuits. Devices containing tens of microscopic capacitors and field-effect transistors are fabricated by using integrated patterned NaCl aqueous solutions. This work paves the way to integrated electronic circuits that include highly integrated liquids, thus yielding a wide array of novel research and application opportunities based on microscopic solid/liquid systems.