Van‐Duong Dao scite author profile

light absorbability, thermal management, water transportation, and water evaporation. [19][20][21][22][23][24][25][26][27][28][29][30][31][32] Among them, the development of sunlight absorbers with rational structure designs has become a popular research topic, because it has remarkable potential to improve η. The absorbers include metallic plasmonics, semiconductors, carbon, and natural materials. [19][20][21][22][23][24][25][26][27][28][29][30][31][32] Among absorber materials, carbon-based materials have low cost, reusability, and excellent light-to-heat conversion properties and accordingly have become a common material in our daily life. [26] However, the operational principle of a carbon-based sunlight absorber in SSG devices is still not understood. Note that the concept for producing steam is very important to design new materials with enhanced efficiency and stability.Here we review some recent progress made in the development of carbon-based sunlight absorbers, including graphene, graphite, carbon nanotubes, other carbon materials, and carbonbased composites, in SSG regarding their fabrication and characterization with special attention paid to material design. The advantages and disadvantages of carbon-based absorbers in SSG are highlighted. Moreover, the challenges of high-performance carbon-based absorbers in solar-driven steam are also discussed. Steam Generation Mechanism for CarbonBased Sunlight Absorbers and Conversion Efficiency Calculation Steam Generation Mechanism for Carbon-Based Sunlight AbsorbersThe mechanism of a plasmonic SSG system has been explored with two plasmonic models. [10,[33][34][35] The first model is surface plasmon polaritons. In this model, the plasmons are able to travel across the surface in the x-y plane of the metal-dielectric interface for tens or hundreds of micrometers and decay to a depth of about 200 nm. [10,33] The second model is localized surface plasmons. It correlates with the Durde-Lorentz model in solid-state physics. According to the conduction band, electrons in the metal can be treated as free electrons, but the positive ions are located in fixed positions. [33] Wang et al. suggested a mechanism for low-temperature solar vapor generation with carbon nanotubes (CNTs) in a suspended system. [29] As shown in

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Recent advances and challenges for solar-driven water evaporation system toward applications

Dao

2020

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Dry plasma reduction to synthesize supported platinum nanoparticles for flexible dye-sensitized solar cells

et al. 2013

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Van‐Duong Dao

Carbon‐Based Sunlight Absorbers in Solar‐Driven Steam Generation Devices

Recent advances and challenges for solar-driven water evaporation system toward applications

Dry plasma reduction to synthesize supported platinum nanoparticles for flexible dye-sensitized solar cells

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