New publication from the SUNLAB: Cell Reports Physical Science

Revolutionary breakthrough in the manufacture of photovoltaic cells at the University of Ottawa: Another step towards miniaturization of electronic devices

The SUNLAB at the University of Ottawa, together with national and international partners, has achieved a world first by manufacturing the first back-contact micrometric photovoltaic cells.

The cells, with a size twice the thickness of a strand of hair, have significant advantages over conventional solar technologies, reducing electrode-induced shadowing by 95% and potentially lowering energy production costs by up to three times.

The technological breakthrough—led by Mathieu de Lafontaine, a postdoctoral researcher at the SUNLAB and a part-time physics professor; and Karin Hinzer, vice-dean, research, University Research Chair in Photonic Devices for Energy at the Faculty of Engineering, and SUNLAB director—paves the way for a new era of miniaturization in the field of electronic devices.

The micrometric photovoltaic cell manufacturing process involved a partnership between the University of Ottawa, the Université de Sherbrooke in Quebec and the Laboratoire des Technologies de la Microélectronique in Grenoble, France.

“These micrometric photovoltaic cells have remarkable characteristics, including an extremely small size and significantly reduced shadowing. Those properties lend themselves to various applications, from densification of electronic devices to areas such as solar cells, lightweight nuclear batteries for space exploration and miniaturization of devices for telecommunications and the internet of things,” Hinzer says.

A breakthrough with huge potential

“This technological breakthrough promises significant benefits for society. Less expensive, more powerful solar cells will help accelerate the energy shift. Lightweight nuclear batteries will facilitate space exploration, and miniaturization of devices will contribute to the growth of the internet of things and lead to more powerful computers and smartphones,” de Lafontaine says.

“The development of these first back-contact micrometric photovoltaic cells is a crucial step in the miniaturization of electronic devices,” he adds.

“Semiconductors are vital in the shift to a carbon-neutral economy. This project is one of many research initiatives that we’re undertaking at the Faculty of Engineering to achieve our societal goals,” says Hinzer. Semiconductors are included in three of the five research areas at the Faculty of Engineering, namely, information technologies, photonics and emerging materials, and two of the four strategic areas of research at the University of Ottawa, namely, creating a sustainable environment and shaping the digital world.

This international partnership between Canada and France illustrates the importance of innovation and research in micromanufacturing, leading the way to a future in which technology will become more powerful and accessible than ever. It also marks an historic step in the evolution of the global scientific and technology scene.

This initiative was funded by the Natural Sciences and Engineering Research Council of Canada, the Fonds de recherche du Québec Nature et technologies, the Horizon Europe Framework program, Prompt Québec and STACE Inc.

This innovative achievement is described in more detail in the article titled “3D Interconnects for III-V Semiconductor Heterostructures for Miniaturized Power Devices” in Cell Reports Physical Science.

M. de Lafontaine, T. Bidaud, G. Gay, E. Pargon, C. Petit-Etienne, A. Turala, R. Stricher, S. Ecoffey, M. Volatier, A. Jaouad, C. E. Valdivia, K. Hinzer, S. Fafard, V. Aimez, and M. Darnon, 3D interconnects for III-V semiconductor heterostructures for miniaturized power devices, Cell Rep. Phys. Sci. 4, 101701 (2023). DOI: 10.1016/j.xcrp.2023.101701

In the media:

Mathieu de Lafontaine, postdoctoral researcher at the SUNLAB and lead author of this new publication in Cell Reports Physical Science.

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