A scalable manufacturing-technology for highly sensitive photodetectors on flexible substrates

Researchers from AMO GmbH and RWTH Aachen University have successfully demonstrated high-responsivity  molybdenum disulfide (MoS₂) photodetectors on flexible substrates, realized with a scalable manufacturing-technology. The work has been recently published in the journal ACS Photonics, and it is the result of a cooperation with the University of Siegen, Raith B.V., AIXTRON SE, and the University of Wuppertal.

Molybdenum disulfide is a two-dimensional material that is ideally suited for realizing highly-sensitive, flexible photodetectors. However, most of the devices demonstrated so far are based on MoS₂ crystals of only a few micrometers in size obtained in a complex process, poorly compatible with an industrial-scale implementation.

In their recent work, Schneider and co-workers have demonstrated an approach scalable to large-volume production of high-performance photodetectors, starting from MoS₂ deposited on sapphire wafers using Metal Organic Vapor Phase Epitaxy (MOVPE). The excellent cooperation between AMO, RWTH, and AIXTRON has allowed to optimize the tools for material-growth, as well as the transfer processes and the technology for realizing highly-sensitive photodetectors on flexible substrates.

This work is an important step towards real-life applications of 2D materials for flexible electronics in the areas of the Internet of Things and medical devices. In particular, “blue light hazard” – a possible risk related to certain modern light sources – can be efficiently detected by the present sensor concept.

The research work was funded by the European Union (QUEFORMAL, 829035) and Graphene Flagship (785219, 881603), European regional funds (HEA2D, NW-1-1-036), the German Research Foundation (MOSTFLEX, 407080863) and the German Ministry of Education and Research (NeuroTec, 16ES1134).