Revolutionary breakthrough in the manufacture of photovoltaic cells

The cells, with a dimension twice the thickness of a strand of hair, have important benefits over typical photo voltaic applied sciences, decreasing electrode-induced shadowing by 95% and doubtlessly reducing vitality manufacturing prices by as much as 3 times.

The technological breakthrough — led by Mathieu de Lafontaine, a postdoctoral researcher on the College of Ottawa and a part-time physics professor; and Karin Hinzer, vice-dean, analysis, and College Analysis Chair in Photonic Units for Vitality on the School of Engineering — paves the best way for a brand new period of miniaturization within the area of digital units.

The micrometric photovoltaic cell manufacturing course of concerned a partnership between the College of Ottawa, the Université de Sherbrooke in Quebec and the Laboratoire des Applied sciences de la Microélectronique in Grenoble, France.

“These micrometric photovoltaic cells have exceptional traits, together with an especially small dimension and considerably diminished shadowing. These properties lend themselves to varied purposes, from densification of digital units to areas comparable to photo voltaic cells, light-weight nuclear batteries for house exploration and miniaturization of units for telecommunications and the web of issues,” Hinzer says.

A breakthrough with large potential

“This technological breakthrough guarantees important advantages for society. Inexpensive, extra highly effective photo voltaic cells will assist speed up the vitality shift. Light-weight nuclear batteries will facilitate house exploration, and miniaturization of units will contribute to the expansion of the web of issues and result in extra highly effective computer systems and smartphones,” de Lafontaine says.

“The event of those first back-contact micrometric photovoltaic cells is a vital step within the miniaturization of digital units,” he provides.

“Semiconductors are very important within the shift to a carbon-neutral financial system. This venture is considered one of many analysis initiatives that we’re endeavor on the School of Engineering to attain our societal targets,” says Hinzer. Semiconductors are included in three of the 5 analysis areas on the School of Engineering, particularly, info applied sciences, photonics and rising supplies, and two of the 4 strategic areas of analysis on the College of Ottawa, particularly, making a sustainable setting and shaping the digital world.

This worldwide partnership between Canada and France illustrates the significance of innovation and analysis in micromanufacturing, main the best way to a future through which expertise will change into extra highly effective and accessible than ever. It additionally marks an historic step within the evolution of the worldwide scientific and expertise scene.

This initiative was funded by the Pure Sciences and Engineering Analysis Council of Canada, the Fonds de recherche du Québec Nature et applied sciences, the Horizon Europe Framework program, Immediate Québec and STACE Inc.