Litcius/Paper detail

Domain Walls

Dennis Meier, Jan Seidel, Marty Gregg, R. Ramesh

2020Oxford University Press eBooks26 citationsDOI

Abstract

Technological evolution and revolution are both driven by the discovery of new functionalities, new materials and the design of yet smaller, faster, and more energy-efficient components. Progress is being made at a breathtaking pace, stimulated by the rapidly growing demand for more powerful and readily available information technology. High-speed internet and data-streaming, home automation, tablets and smartphones are now ‘necessities’ for our everyday lives. Consumer expectations for progressively more data storage and exchange appear to be insatiable. In this context, ferroic domain walls have attracted recent attention as a completely new type of oxide interface. In addition to their functional properties, such walls are spatially mobile and can be created, moved, and erased on demand. This unique degree of flexibility enables domain walls to take an active role in future devices and hold a great potential as multifunctional 2D systems for nanoelectronics. With domain walls as reconfigurable electronic 2D components, a new generation of adaptive nano-technology and flexible circuitry becomes possible, that can be altered and upgraded throughout the lifetime of the device. Thus, what started out as fundamental research, at the limit of accessibility, is finally maturing into a promising concept for next-generation technology.

Topics & Concepts

Flexibility (engineering)PaceContext (archaeology)Domain (mathematical analysis)Computer scienceNanoelectronicsNanotechnologyEngineeringMaterials sciencePhysicsGeographyStatisticsMathematicsAstronomyArchaeologyMathematical analysisFerroelectric and Negative Capacitance DevicesFerroelectric and Piezoelectric MaterialsSemiconductor materials and devices