Optoelectronics

Thinking outside the 2D box with graphene photodetectors

19th July 2016
Enaie Azambuja

In a recent work published in Nature Communications, a research group led by ICREA Professor at ICFO Frank Koppens demonstrates a way to detect low-energy photons using vertical heterostructures made by stacking graphene and other 2D semiconducting materials. By studying the photo response of these atomically thin sandwiches, researchers have shown that it is possible to generate a current by heating electrons in graphene with infrared light and extracting the hottest electrons over a vertical energy barrier.

This ingenious mechanism, called the photo-thermionic effect, takes advantage of certain unique optical properties of graphene such as its broadband absorption, ultrafast response and gate tunability.

Moreover, owing to their vertical geometry, devices relying on this effect make use of the entire surface of graphene and can be potentially scaled up and integrated with flexible or rigid platforms.

More generally, this study reveals once again the amazing properties of these man-made heterostructures. According to Prof. Frank Koppens, "This is just the tip of the iceberg.

These 2D sandwiches still have a lot to reveal." ICFO researcher Mathieu Massicotte, first author of this study, emphasises the possibilities opened up by these new materials: "Everyone knows it is possible to detect light with graphene using in-plane geometries, but what about the out-of-plane direction? To answer, you need to think outside the 2D box!"

The results obtained from this study have shown that heterostructures made of 2D materials and graphene can be used to detect low-energy photons which could lead to new, fast and efficient optoelectronic applications, such as high-speed integrated communication systems and infrared energy harvesting.

In addition, it demonstrates the compatibility of 2D materials with the digital chips currently utilised in cameras, paving the way for low cost infrared spectrometers and imaging systems.

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