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Measuring Electrical Resistivity at the Nanoscale in Phase-Change Materials

Electrical resistivity is the key parameter in the active regions of many current nanoscale devices, from memristors to resistive random-access memory and phase-change memories. The local resistivity of the materials is engineered on the nanoscale to fit the performance requirements. Phase-change me...

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Bibliographic Details
Published in:Nano letters 2024-05, Vol.24 (19), p.5913-5919
Main Authors: Zhang, Leifeng, Lorut, Frédéric, Gruel, Kilian, Hÿtch, Martin J., Gatel, Christophe
Format: Article
Language:English
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Summary:Electrical resistivity is the key parameter in the active regions of many current nanoscale devices, from memristors to resistive random-access memory and phase-change memories. The local resistivity of the materials is engineered on the nanoscale to fit the performance requirements. Phase-change memories, for example, rely on materials whose electrical resistance increases dramatically with a change from a crystalline to an amorphous phase. Electrical characterization methods have been developed to measure the response of individual devices, but they cannot map the local resistance across the active area. Here, we propose a method based on operando electron holography to determine the local resistance within working devices. Upon switching the device, we show that electrical resistance is inhomogeneous on the scale of only a few nanometers.
ISSN:1530-6984
1530-6992
DOI:10.1021/acs.nanolett.4c01462