Australia’s national science agency, CSIRO, has achieved a significant milestone as its state-of-the-art printed flexible solar cells were successfully launched into space on Tuesday. Attached to Australia’s largest private satellite, Optimus-1, these solar modules aim to revolutionize space power. Developed on flexible substrates, the perovskite-based solar cells promise a remarkable increase in power-to-mass ratio, crucial for space applications.
Dr. Kimberley Clayfield, CSIRO's space program director, expressed optimism about the technology's potential, stating that if the flight test confirms laboratory performance, these solar cells could offer substantial advantages over traditional silicon-based ones. The launch of Optimus-1 provides an opportunity to validate the cells' endurance under extreme space conditions and gather data on their efficiency.
Dr. Anthony Chesman, CSIRO's renewable energy systems group leader, emphasized the cells' resilience to cosmic radiation and their expected outperformance in non-optimal sunlight angles. This mission marks a crucial step in harnessing renewable energy in space, complementing recent advancements like Ascent Solar Technologies' CIGS thin-film PV panels set to power NASA's upcoming LISA-T mission. As space exploration intensifies, innovations like CSIRO's flexible solar cells promise to reshape the future of space technology.
Source: reneweconomy.com.au