TiO2-CeO2 Admixed Photoelectrode for Optimization of Hydrogen Production in Regard to Photoelectrochemical Solar Cell
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Publisher
Springer Nature Switzerland
Link
https://link.springer.com/content/pdf/10.1007/978-3-031-61660-0_10
Reference17 articles.
1. Chawla, P., Pandey, A., Pooja, K., & Tripathi, M. (2022). Low cost and efficient counter electrode for solid state dye sensitized solar cells. Journal of Applied Electrochemistry, 1–10.
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3. Feng, J., Huang, H., Yan, S., Luo, W., Yu, T., Li, Z., & Zou, Z. (2020). Non-oxide semiconductors for artificial photosynthesis: progress on photoelectrochemical water splitting and carbon dioxide reduction. Nano Today, 30, 100830.
4. Feng, H., Liu, D., Zhang, Y., Shi, X., Esan, O. C., Li, Q., Chen, R., & An, L. (2022). Advances and challenges in photoelectrochemical redox batteries for solar energy conversion and storage. Advanced Energy Materials, 2200469.
5. Goltsov, V. A., & Veziroglu, T. N. (2001). From hydrogen economy to hydrogen civilization. International Journal of Hydrogen Energy, 26, 909–915.
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