In the context of Taiwan's 2050 net-zero transition roadmap, the Raspberry Pi serves as a versatile, low-cost micro-edge computing device, demonstrating extensive application potential in various fields such as biological sciences, environmental sciences, and microalgae cultivation. In the realm of negative carbon, microalgae are considered an important bio-based carbon sink due to their high carbon fixation efficiency. To further explore this, this article conducts an analysis of articles related to 'Raspberry Pi' and 'microalgae cultivation' through academic search. The results reveal that the Raspberry Pi has widespread applications in three main aspects of microalgae cultivation: light source control, aquatic environmental control, and biomass density monitoring. Additionally, the integration of the Internet of Things (IoT) and Artificial Intelligence (AI) makes the Raspberry Pi highly practical for remote monitoring and data analysis. This not only helps optimize the conditions for microalgae cultivation but also offers new avenues for addressing sustainable development issues. In summary, the multifunctionality and cost-effectiveness of the Raspberry Pi make it an important research and application tool for achieving Taiwan's 2050 net-zero goals through microalgae carbon fixation.