Europe’s leading position in photonics and electronics can only be secured by adapting to the next generation of optoelectronic devicesrequirements: high performance, multi-functionality and cost efficiency in miniaturized footprint. These can only be achieved if novelschemes for on-chip integration emerge. Among the established platforms for optoelectronic integrated circuits (OEICs), silicon nitride asa wide-band and low-loss material stands outs. However, Si3N4 itself has no active effect and the heterogeneous integration of active IIIVand II-VI semiconductor chips is currently very complicated and costly. MatEl offers a unique solution to this challenge and promisesto enable a novel on-chip integration scheme: Laser Digital Processing - Laser Transfer and Laser Soldering - will be employed for theaccurate and fast alignment and bonding of any type of chip package (OEIC) on Si3N4. The hybrid platform will be enhanced bythemonolithic integration of advanced materials (graphene and high-quality PZT), which will enable multiple functionalities in miniaturizedfootprint. MatEl will thus demonstrate two next-gen optoelectronic devices at TRL5: 1) 2D light source for AR displays with integratedRGB lasers and OEIC-based demultiplexers. 2) Bio-photonic sensor for antibodies detection with on-chip VCSEL at 850 nm featuringgraphene photodetectors. Overall, MatEl ’s hybrid platform will combine the wide bandwidth and high confinement provided by Si3N4with the active functionality of III-V and II-VI lasers, supporting a broad spectrum of next-gen applications, extending far beyondthese demo applications. Hence, MatEl will reinforce the existing collaborations within the consortium and introduce new eco-systems,estimated to strengthen the EU photonics and microelectronics industrial capability by generating multi M€ turnovers to the involvedSMEs and more than 200 new employment positions by the end of its timeframe.