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Nanoscale Redox Reaction at Metal/Oxide Interface

Nanoscale Redox Reaction at Metal/Oxide Interface
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A Case Study on Schottky Contact and ReRAM
Takahiro Nagata
Springer Tokyo
 eBook
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Artikel-Nr:
9784431548508
Veröffentl:
2020
Einband:
eBook
Seiten:
89
Autor:
Takahiro Nagata
Serie:
NIMS Monographs
eBook Typ:
PDF
eBook Format:
Reflowable eBook
Kopierschutz:
Digital Watermark [Social-DRM]
Sprache:
Englisch
Systemvoraussetzungen
Beschreibung:

This book examines the investigation and intentional control of metal/oxide interface structure and electrical properties with the data obtained using non-destructive methods such as x-ray photoelectron spectroscopy (XPS) and x-ray reflectometry (XRR).

Oxide materials are good candidates for replacing Si devices, which are increasingly reaching their performance limits, since the former offer a range of unique properties, due to their composition, design and/or doping techniques.  

The author introduces a means of selecting oxide materials according to their functions and explains metal/oxide interface physics. As he demonstrates, material development is the key to matching oxide materials to specific practical applications.

In this book, the investigation and intentional control of metal/oxide interface structure and electrical properties using data obtained with non-destructive methods such as x-ray photoelectron spectroscopy (XPS) and x-ray reflectometry (XRR) are discussed. Further, it shows how oxide materials can be used to support the development of future functional devices with high-k, ferroelectric, magnetic and optical properties. In closing, it explains optical sensors as an application of metal Schottky contact and metal/oxide resistive random access memory structure.


General introduction.- Changes in Schottky barrier height behavior of Pt-Ru alloy contacts on single-crystal ZnO.- Surface passivation effect on Schottky contact formation of oxide semiconductors.- Bias-induced interfacial redox reaction in oxide-based resistive random access memory structure.- Switching control of oxide-based resistive random access memory by valence state control of oxide.- Combinatorial thin film synthesis for new nanoelectronics materials.- General summary.

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