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Published in

Nature Research, Scientific Reports, 1(6), 2016

DOI: 10.1038/srep21045

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Quantitative secondary electron imaging for work function extraction at atomic level and layer identification of graphene

This paper is made freely available by the publisher.
This paper is made freely available by the publisher.

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Abstract

AbstractTwo-dimensional (2D) materials usually have a layer-dependent work function, which require fast and accurate detection for the evaluation of their device performance. A detection technique with high throughput and high spatial resolution has not yet been explored. Using a scanning electron microscope, we have developed and implemented a quantitative analytical technique which allows effective extraction of the work function of graphene. This technique uses the secondary electron contrast and has nanometre-resolved layer information. The measurement of few-layer graphene flakes shows the variation of work function between graphene layers with a precision of less than 10 meV. It is expected that this technique will prove extremely useful for researchers in a broad range of fields due to its revolutionary throughput and accuracy.