Advances and challenges of broadband solar absorbers for efficient solar steam generation

With the emergence of a large number of solar absorbers due to the tremendous development of material science, an ancient technology, solar-driven evaporation offers a promising opportunity for addressing the global water crisis in a green, feasible, efficient, economic, and sustainable way. To achieve high evaporation performance, solar absorbers with broad solar absorption and high photothermal conversion efficiency are anticipated. In this review, we summarized the recent progress on solar absorbers, including metallic nanoparticles, carbonaceous materials, conjugated polymers, organic-small-molecule solar absorbers, and semiconductors. On account of understanding the working mechanisms, the strategies to rational design, property modulation, and structural optimization of solar absorbers for improving the performance of solar-driven evaporation are discussed. Meanwhile, the heat management and water transportation in the state-of-the-art evaporation systems are also highlighted with representative examples. Finally, we overview the key challenges that restrict the translation from laboratory to practical solar-driven evaporation for clean water production.

Automated summary

With the advancement of material science, solar-driven evaporation has emerged as a promising and sustainable solution to the global water crisis. This review summarizes recent progress in solar absorbers and discusses strategies for improving the performance of solar-driven evaporation through rational design and structural optimization. Additionally, it highlights the challenges in heat management and water transportation in current evaporation systems.