3D‐Printed, All‐in‐One Evaporator for High‐Efficiency Solar Steam Generation under 1 Sun Illumination

Li, Yiju; Gao, Tingting; Yang, Zhi; Chen, Chaoji; Luo, Wei; Song, Jianwei; Hitz, Emily; Jia, Chao; Zhou, Yubing; Liu, Boyang; Yang, Bao; Hu, Liangbing

doi:10.1002/adma.201700981

Cited by 525 publications

(361 citation statements)

References 45 publications

(45 reference statements)

Supporting

Mentioning

357

Contrasting

Unclassified

Order By: Relevance

“…[76][77][78] Apart from the above-mentioned advantages of CNTs as photothermal agent, the optical property and surface property (i.e., hydrophilicity and surface charge) of graphene are able to be elegantly tuned through regulating its oxidation degree (e.g., GO: graphene oxide or rGO: reduced graphene oxide). [83] Besides, a beam of laser could be also utilized to process the GO aerogel into highly vertically ordered pillar array of graphene-assembled frameworks, and this unique structure is very useful for photothermal water evaporation. [79] Thanks to the fast progress of micro-nano fabrication techniques, graphene-based derivatives can be easily processed into various bulk materials (i.e., 2D film [80,81] and 3D aerogel [62,63,82] ) as photothermal convertors.…”

Section: Carbon Nanotube and Graphenementioning

confidence: 99%

Harnessing Solar‐Driven Photothermal Effect toward the Water–Energy Nexus

et al. 2019

View full text Add to dashboard Cite

Producing affordable freshwater has been considered as a great societal challenge, and most conventional desalination technologies are usually accompanied with large energy consumption and thus struggle with the trade‐off between water and energy, i.e., the water–energy nexus. In recent decades, the fast development of state‐of‐the‐art photothermal materials has injected new vitality into the field of freshwater production, which can effectively harness abundant and clean solar energy via the photothermal effect to fulfill the blue dream of low‐energy water purification/harvesting, so as to reconcile the water–energy nexus. Driven by the opportunities offered by photothermal materials, tremendous effort has been made to exploit diverse photothermal‐assisted water purification/harvesting technologies. At this stage, it is imperative and important to review the recent progress and shed light on the future trend in this multidisciplinary field. Here, a brief introduction of the fundamental mechanism and design principle of photothermal materials is presented, and the emerging photothermal applications such as photothermal‐assisted water evaporation, photothermal‐assisted membrane distillation, photothermal‐assisted crude oil cleanup, photothermal‐enhanced photocatalysis, and photothermal‐assisted water harvesting from air are summarized. Finally, the unsolved challenges and future perspectives in this field are emphasized. It is envisioned that this work will help arouse future research efforts to boost the development of solar‐driven low‐energy water purification/harvesting.

show abstract

Section: Carbon Nanotube and Graphenementioning

confidence: 99%

Harnessing Solar‐Driven Photothermal Effect toward the Water–Energy Nexus

et al. 2019

View full text Add to dashboard Cite

show abstract

“…Recently, Li et al, utilized the fastest growing technology of additive manufacturing (3D printing) to construct an all-in-one evaporator with a concave structure for solar steam generation [105]. The integrated structure consists of the carbon nanotubes/graphene oxide as broadband solar absorber and graphene oxide/nano-fibrillated cellulose porous layer for liquid propagation, as shown in Figure 11a (c) Curves of dynamic evaporation rate of pure water and the 3D-CG/GN at different time points [105].…”

Section: Carbon/graphene Based Floating Solar Receivermentioning

confidence: 99%

“…The integrated structure consists of the carbon nanotubes/graphene oxide as broadband solar absorber and graphene oxide/nano-fibrillated cellulose porous layer for liquid propagation, as shown in Figure 11a (c) Curves of dynamic evaporation rate of pure water and the 3D-CG/GN at different time points [105]. Reprinted from [105].…”

Section: Carbon/graphene Based Floating Solar Receivermentioning

confidence: 99%

“…The hydroxyl and carboxyl groups of modified graphene oxide sheets react with the isocyanate groups to form stable chemical bonds, which help in fabrication of stable organic-inorganic nanocomposite foam. This type of (c) Curves of dynamic evaporation rate of pure water and the 3D-CG/GN at different time points [105]. Reprinted from [105].…”

Section: Organic-inorganic Nanocomposite Based Floating Solar Receiversmentioning

confidence: 99%

“…This type of (c) Curves of dynamic evaporation rate of pure water and the 3D-CG/GN at different time points [105]. Reprinted from [105]. Copyright (2017) WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.…”

Section: Organic-inorganic Nanocomposite Based Floating Solar Receiversmentioning

confidence: 99%

See 2 more Smart Citations

Novel Receiver-Enhanced Solar Vapor Generation: Review and Perspectives

Raza

Alzaim

et al. 2018

Energies

View full text Add to dashboard Cite

Efficient solar vapor/steam generation is important for various applications ranging from power generation, cooling, desalination systems to compact and portable devices like drinking water purification and sterilization units. However, conventional solar steam generation techniques usually rely on costly and cumbersome optical concentration systems and have relatively low efficiency due to bulk heating of the entire liquid volume. Recently, by incorporating novel light harvesting receivers, a new class of solar steam generation systems has emerged with high vapor generation efficiency. They are categorized in two research streams: volumetric and floating solar receivers. In this paper, we review the basic principles of these solar receivers, the mechanism involving from light absorption to the vapor generation, and the associated challenges. We also highlight the two routes to produce high temperature steam using optical and thermal concentration. Finally, we propose a scalable approach to efficiently harvest solar energy using a semi-spectrally selective absorber with near-perfect visible light absorption and low thermal emittance. Our proposed approach represents a new development in thermally concentrated solar distillation systems, which is also cost-effective and easy to fabricate for rapid industrial deployment.

show abstract

Emerging Synergistically Multifunctional and All‐in‐One Nanomaterials and Nanodevices in Advanced Environmental Applications

2019

Artificially Intelligent Nanomaterials

View full text Add to dashboard Cite

3D‐Printed, All‐in‐One Evaporator for High‐Efficiency Solar Steam Generation under 1 Sun Illumination

Cited by 525 publications

References 45 publications

Harnessing Solar‐Driven Photothermal Effect toward the Water–Energy Nexus

Harnessing Solar‐Driven Photothermal Effect toward the Water–Energy Nexus

Novel Receiver-Enhanced Solar Vapor Generation: Review and Perspectives

Emerging Synergistically Multifunctional and All‐in‐One Nanomaterials and Nanodevices in Advanced Environmental Applications

Contact Info

Product

Resources

About