Researchers at Uppsala University in Sweden have achieved a groundbreaking milestone in solar energy technology, setting a new world record for energy conversion efficiency with CIGS solar cells.
Renewable energy, particularly solar power, has garnered increasing attention worldwide as a crucial solution for mitigating carbon emissions. Despite significant progress in reducing manufacturing and installation costs, solar energy accounts for only six percent of global electricity demand.
Crystalline silicon solar cells, the most commonly used type, have limitations in energy conversion efficiency, achieving only around 22 percent efficiency. This means that a substantial portion of solar energy remains untapped, highlighting the need for technological improvements.
Tandem solar cells have been proposed as a promising solution to enhance efficiency, with potential conversion rates exceeding 30 percent. However, challenges in production costs have hindered the widespread adoption of perovskite-based tandem cells.
CIGS solar cells, which utilize layers of copper, indium, gallium, and selenide, offer a cost-effective alternative with the potential for scalability. The recent achievement by Uppsala University, surpassing the previous record set by Solar Frontier in Japan, demonstrates the significant progress in enhancing solar cell efficiency.
In-depth analysis conducted by the research team involved advanced techniques such as nano-XRF and high-resolution transmission electron microscopy (TEM) to understand the composition and structure of the solar cell layers. Photoluminescence studies provided insights into electron flow within the cell, contributing to further performance improvements.
The versatility of CIGS technology extends to its potential application in tandem solar cells, offering promising opportunities for enhancing overall efficiency. The research findings have been published in the prestigious journal Nature Energy, underscoring the significance of this breakthrough in renewable energy research.
The achievement by Uppsala University represents a significant milestone in advancing solar cell technology, with implications for addressing global energy challenges and accelerating the transition to a sustainable energy future.