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Issue 48, 2015
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Improved thermal stability and retention properties of Cu–Te based CBRAM by Ge alloying

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Abstract

In this work we investigate the influence of Ge as an alloying element in Cu–Te based thin films for application as a cation supply layer in Conductive Bridge Random Access Memory (CBRAM). The thermal stability of the alloys and their functionality as a copper supply layer in CBRAM are investigated. The thermal stability is studied by means of in situ X-ray diffraction, which reveals information on phase separation, phase transformations and melting of the material. We demonstrate that addition of Ge to Cu0.6Te0.4 inhibits crystallization up to 300 °C. However, phase separation occurs upon crystallization, which might result in device to device variability when this occurs in memory devices. This is solved by using Cu2GeTe3 that forms a single phase upon crystallization. The most promising alloys are implemented in 580 μm diameter dot Pt/CuxTeyGe1−xy/Al2O3/Si CBRAM cells. Their functionality is verified by DC cycling and the influence of Ge is studied by comparing the switching to binary Cu0.6Te0.4 based memory cells. The retention of the programmed memory states is measured at 85 °C. Functional CBRAM is demonstrated, and improved filament stability and retention properties are observed for the Ge containing cells compared to Cu0.6Te0.4. We mainly attribute this to the Ge–Te bonds that are formed in the supply layer. This lowers the tendency for Cu–Te formation which results in a lower driving force for the Cu to go back to the supply layer, and hence contributing to a more stable filament. The formation of Ge–Te bonds was confirmed by XPS measurements.

Graphical abstract: Improved thermal stability and retention properties of Cu–Te based CBRAM by Ge alloying

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Publication details

The article was received on 04 Sep 2015, accepted on 04 Nov 2015 and first published on 23 Nov 2015


Article type: Paper
DOI: 10.1039/C5TC02776D
Citation: J. Mater. Chem. C, 2015,3, 12469-12476
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    Improved thermal stability and retention properties of Cu–Te based CBRAM by Ge alloying

    W. Devulder, K. Opsomer, G. Rampelberg, B. De Schutter, K. Devloo-Casier, M. Jurczak, L. Goux and C. Detavernier, J. Mater. Chem. C, 2015, 3, 12469
    DOI: 10.1039/C5TC02776D

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