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Active HORIZON European Commission

Nanomaterials for Infrared Silicon Photonics

€1.67M EUR

Funder European Commission
Recipient Organization Universiteit Gent
Country Belgium
Start Date Dec 01, 2022
End Date Nov 30, 2027
Duration 1,825 days
Number of Grantees 1
Roles Coordinator
Data Source European Commission
Grant ID 101077526
Grant Description

Printed opto-electronics based on solution processable colloidal semiconductor quantum dots (QDs) can make available a much-needed small footprint, low cost and flexible platform for optical sensing, imaging and spectroscopy in the technologically relevant short and mid-wave infrared (IR) spectrum (1.5 m 5 m).

However, while this revolution took place in the visible spectrum, and is happening at the side of detection for IR light, QD IR light source technology is currently expensive, lacking performance and is based on restricted chemical elements.

Moreover, final device assemblies have large footprints, limiting their functionality in consumer devices requiring large scale deployment.

In NOMISS, I will therefore explore a route towards printable IR opto-electronics by developing a new class of solution-processable QDs based on non-restricted elements with efficient IR emission.

I will study both their fundamental IR light-matter interactions, aimed at increasing light emission efficiency, and the possibility to incorporate them with small-footprint photonic integrated circuits (PICs). To this end, I will first extend the bottom-up chemical synthesis of tunable III-V In(As,Sb,P) QDs.

Next, I will study their (non-)linear optical properties, using a novel ultrafast and broadband IR optical spectroscopy methodology, in particular focusing on the fundamental questions related to the QDs organic/inorganic interface and how to optimize spontaneous & stimulated IR emission.

Finally, I will develop a framework to combine these materals with silicon based PICs to realize cheap & small-footprint IR light sources, in particular optically pumped lasers. After NOMISS, the new cross-disciplinary and high-impact field of 'printable IR opto-electronics' will be available.

To meet these high risk challenges, I will lead a multi-disciplinary team with experts in nanochemistry, nanophysics and nanophotonics engineering.

All Grantees

Universiteit Gent

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