Sugarcane‐Based Photothermal Materials for Efficient Solar Steam Generation

Xiao, Chaohu; Chen, Lihua; Mu, Peng; Jia, Ji; Sun, Hanxue; Zhu, Zhaoqi; Liang, Weidong; An, Li

doi:10.1002/slct.201901889

Cited by 37 publications

(28 citation statements)

References 39 publications

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“…Polypyrrole (PPy) is one of the most stable conductive polymers due to its heterocyclic structure, which exhibits diffuse reflection and efficient solar absorption that promotes its direct application in solar-driven devices. [23][24][25][26] Indeed, nickel foam substrate was selected to support the stability of PPy NPs due to its open porous structure and exploit the intrinsic defuse reflection of conductive PPy NPs, [27] high porosity, and intrinsic strength with better uniformity. For this, monomer solutions (A&B) were prepared, as described in the Experimental Section (2.2), and sprayed successively for IPNF.…”

Section: Fabrication Of Ipnf Solar Evaporatormentioning

confidence: 99%

“…[32][33][34] However, water transportation is also significantly improved due to the excellent superhydrophilic combination of in situ-polymerized nickel foam and PU substrate, whereas the rough surface texture boosts the wetting capacity. [26,35] Indeed, the micropores of both surfaces are naturally crosslinked and interconnected vertically to manifest the superhydrophilicity of the water channel for wicking up water and vapor escaping, as shown in Video S2, Supporting Information. Figure S4, Supporting Information, shows the contact angle test of the IPNF solar evaporator, where the water droplet interacts with the IPNF surface and is abruptly absorbed (0.001 s).…”

Section: Ipnf Solar Evaporatormentioning

confidence: 99%

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Intensifying Solar Interfacial Heat Accumulation for Clean Water Generation Excluding Heavy Metal Ions and Oil Emulsions

et al. 2021

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Solar‐driven interfacial steam generation has emerged as an innovative technique for seawater desalination due to its high photothermal conversion efficiency and potential industrial applications. Herein, a superior interfacial heat accumulation structure composed of semiconductive in situ polymerization (polypyrrole) of nickel foam (IPNF) is reported. The IPNF photothermal layer is assembled with superhydrophilic polyurethane substrate for synchronous water transport and excellent thermal insulation. The 2D ultrablack mesh induces multiple incident rays within the diffused polymerized surface, which allows omnidirectional solar absorption (88.5 %) and intensifying heat localization (49.5 °C @ 1 sun). The state‐of‐the‐art evaporation performances reveal that the integrated IPNF solar evaporator exhibits an excellent evaporation rate (1.74 kg m−2 h−1) and solar‐to‐vapor conversion efficiency (90% excluding heat losses) under 1 kW m−2 solar intensity. Besides this, the long‐term evaporation experiments show negligible discrepancy under seawater conditions (13.27 kg m−2/8 h under 1 kW m−2) and engrain its functioning potential for multimedia and salt rejection (3.2 g × NaCl/240 min). More importantly, herein, insights into different water states in the polymeric network systems during solar‐driven evaporation are provided. This work shows a significant potential to generate freshwater excluding heavy metals and other oil emulsions for industrial applications.

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Section: Fabrication Of Ipnf Solar Evaporatormentioning

confidence: 99%

Section: Ipnf Solar Evaporatormentioning

confidence: 99%

Intensifying Solar Interfacial Heat Accumulation for Clean Water Generation Excluding Heavy Metal Ions and Oil Emulsions

et al. 2021

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“…The solar energy conversion efficiency of CNT-SC under 1 sun is 94.2%, which is higher than most recently reported biomass-based solar evaporators and is the highest efficiency among the sugarcane-based materials (Figure 4c and Table S1). [22,25,31,32,35,[42][43][44][45][46] With the increase of solar illumination up to 5 sun, visible steam can be observed on the CNT-SC surface with the efficiency of 95.8%, demonstrating the fast evaporation of water.…”

Section: Solar Steam Generation Performance and Durabilitymentioning

confidence: 99%

“…With these in mind, absorbers using biomass such as wood, [21,30] mushroom, [22] sugarcane, [31,32] bamboo, [33,34] and daikon [35] have been considered due to their abundance, low cost, renewability, and biodegradability. Different from the traditional biomass carbon materials, which are created by pyrolysis, the recently reported biomass-based materials are used directly as the templet/structural portion in their original state without macroscopic damage of structure.…”

Section: Introductionmentioning

confidence: 99%

“…[32] Li's group demonstrated a fabrication of polypyrrole-modified sugarcane as an efficient solar thermal material for solar steam generation with an efficiency of 90.6% under 1 sun. [31] The light absorption/solar steam generation performance is enhanced by surface modification. Although much of the previous research has improved the efficiency of sugarcane to a certain extent, it is necessary to find a more efficient absorption layer to enhance the efficiency, especially under low solar flux (<1 sun) conforming to real conditions.…”

Section: Introductionmentioning

confidence: 99%

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