Solar-thermal conversion and steam generation: a review

Shi, Lei; Wang, Xinzhi; Hu, Yanwei; He, Yurong; Yan, Yuying

doi:10.1016/j.applthermaleng.2020.115691

Cited by 127 publications

(51 citation statements)

References 99 publications

(163 reference statements)

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“…In addition, multiplex metal NPs are a special category of plasmonic nanomaterials which can be deposited on various substrates and effectively convert sunlight into heat. A lot of efforts have been made on the research of plasmonic nanoparticle-based evaporators and tremendous progresses have been achieved 99,100 , however, there are still many challenges in practical applications. Firstly, the heat and mass transfer in its microscopic process still needs further be investigated.…”

Section: Multi-component Metal Nanostructuresmentioning

confidence: 99%

Rational Design of Plasmonic Metal Nanostructures for Solar Energy Conversion

et al. 2022

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Plasmonic metal nanostructures, possessing unique surface plasmon resonance properties, show excellent capabilities for light trapping and coupling. On this basis, various plasmonic metal nanostructures offer extraordinary opportunities to promote the conversion efficiency of solar energy to electric energy, hydrogen energy or thermal energy, etc. In this review article, we highlight a number of recent research achievements on the rational design of plasmonic metal nanostructures so as to maximize the utilization of the entire solar spectrum. Compared with single metal nanoparticle, multiplex (such as multi-compositions, sizes, or shapes) nanoparticle structures emphasize advantages in broadening absorption range and improving light-utilization efficiency. This review is ended up with discussions about the challenges in this research field and proposals of some prospects for future directions.

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Section: Multi-component Metal Nanostructuresmentioning

confidence: 99%

Rational Design of Plasmonic Metal Nanostructures for Solar Energy Conversion

et al. 2022

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“…Semiconductors exhibit photothermal characteristic with mechanism of electron-hole generation and relaxation. [98] It is worth noting that electron-hole generation can be excited by both thermal energy and light. Direct thermal generation describes electron-hole generated by thermal energy, on the other hand photogeneration describes electron-hole generated by light.…”

Section: Photothermal Mechanism Of Semiconductormentioning

confidence: 99%

State‐of‐the‐Art Advances, Development, and Challenges of Metal Oxide Semiconductor Nanomaterials for Photothermal Solar Steam Generation

Tan

Yap

Zheng

et al. 2022

Advanced Sustainable Systems

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Solar steam generation has drawn high levels of attention from the research community in recent years due to its wide application and abundantly available energy source—sunlight. To the best of the author's knowledge, a specialized overview of photothermal semiconductor solar steam generation has not been conducted to date. In this review, the recently reported solar evaporators using metal oxide semiconductors as the photoabsorber material are investigated, from the perspective of nanostructure, synthesis method, and installation method. A timeline sequence map is generated with the CiteSpace analysis tool to visualize the trend of metal oxide semiconductors as photoabsorbers. The nanostructure of metal oxide semiconductor is emphasized, due to its significant effect on regulating photothermal efficiency in solar steam generation. In addition, other considerations are suggested to enable a fair evaluation of future synthesized photoabsorbers, including cost, stability, reproducibility, recyclability, and regenerative ability. A brief summary of divergent application of solar steam generation is conducted to show the merits of solar steam generation, as well to provide insights for production of photoabsorbers targeted to varying usage and scenarios. Furthermore, the challenges and opportunities of metal oxide solar steam generation system are elaborated from the viewpoint of the authors, with the aim to provide useful insights for future development of photothermal solar steam generation.

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“…Since then, the research on SSG reached a climax, scientists reviewed SSG from the design and thermal management of solar evaporation systems to the dimensions, selection structural design, and light‐absorbing layer of PMs, and published dozens of articles. [ 16–31 ] Finally, Zhu's group [ 32 ] exhibited the structural designs of interfacial solar vapor generators to improve the energy transfer efficiency and evaporation rate. Mi and his colleagues [ 33 ] also present the latest strategies in reducing salt accumulation on the evaporator for solar desalination and brine treatment.…”

Section: Introductionmentioning

confidence: 99%

Recent Progress on the Solar‐Driven Interfacial Evaporation Based on Natural Products and Synthetic Polymers

Wang

Bai

et al. 2021

Solar RRL

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Solar steam generation (SSG) has emerged as a promising technology to utilize solar energy for desalination. As the key part of the SSG system, photothermal materials (PMs) play a critical role due to their unique solar‐driven interface evaporation pattern. Herein, the research progress of PMs based on natural products and synthetic polymers in recent years is reviewed. The major emphasis lies on the preparation method, the structure, and the solar energy conversion efficiency of such PMs. Further understanding of the structure–performance relationship of these materials may supply useful guidance for design and fabrication of high‐performance PMs, which is of great importance for the promotion of practical application of SSG.

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Solar-thermal conversion and steam generation: a review

Cited by 127 publications

References 99 publications

Rational Design of Plasmonic Metal Nanostructures for Solar Energy Conversion

Rational Design of Plasmonic Metal Nanostructures for Solar Energy Conversion

State‐of‐the‐Art Advances, Development, and Challenges of Metal Oxide Semiconductor Nanomaterials for Photothermal Solar Steam Generation

Recent Progress on the Solar‐Driven Interfacial Evaporation Based on Natural Products and Synthetic Polymers

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