Functional materials for photovoltaics and hydrogen energy
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Conclusion
In examining the realm of photovoltaics and hydrogen energy, we explored the dynamic interplay of functional materials that underpin these technologies. From the highly efficient perovskite and flexible organic solar cells to the catalysts vital for fuel cell function and efficient hydrogen production via electrolysis, we delved into the crux of these sustainable energy avenues. However, they each bear challenges – stability for photovoltaics, and cost and efficiency for hydrogen energy systems, to name a few. Despite these hurdles, these domains are predicted to see notable progress. PSCs are expected to improve in stability, OSCs in efficiency, while fuel cells and electrolysis systems may benefit from cost-effective catalysts. Solid-state hydrogen storage and scalable electrolysis systems also represent promising areas of future research. Summarizing our discourse, the study of functional materials, crucial in photovoltaics and hydrogen energy, unveils their enormous potential to drive a sustainable energy transition. With the urgency for renewable energy adoption escalating, these materials' role is amplified. Our way forward calls for a blend of scientific prowess, creativity, collaboration, and a deep-rooted commitment to sustainability. As we continue contributing to this global mission of sustainable energy, we remain optimistic about our shared future. In essence, this conclusion is an open invitation for continued exploration, innovation, and pushing the boundaries of potential with functional materials. As we shape our sustainable energy future, our shared goal rests on the relentless pursuit of innovation in photovoltaics and hydrogen energy. References [1] Bati, A. S., Zhong, Y. L., Burn, P. L., Nazeeruddin, M. K., Shaw, P. E., & Batmunkh, M. (2023). Next-generation applications for integrated perovskite solar cells. Communications Materials, 4(1), 2. [2] Xue, Q., Xia, R., Brabec, C. J., & Yip, H. L. (2018). Recent advances in semi-transparent polymer and perovskite solar cells for power generating window applications. Energy & Environmental Science, 11(7), 1688-1709. [3] Al Mamun, M. A., Dargusch, P., Wadley, D., Zulkarnain, N. A., & Aziz, A. A. (2022). A review of research on agrivoltaic systems. Renewable and Sustainable Energy Reviews, 161, 112351. [4] Varela, F. J. (1996). Neurophenomenology: A methodological remedy for the hard problem. Journal of consciousness studies, 3(4), 330-349. [5] Wang, Z. L., & Wu, W. (2012). Nanotechnology‐enabled energy harvesting for self‐powered micro‐/nanosystems. Angewandte Chemie International Edition, 51(47), 11700-11721. Yüklə 19,42 Kb. Dostları ilə paylaş:
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