A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Emerging Synergistically Multifunctional and All‐in‐One Nanomaterials and Nanodevices in Advanced Environmental Applications
This chapter introduces several examples of designing synergistically multifunctionalized nanomaterials and their advanced environmental applications that are otherwise impossible with conventional methods and systems. The multifunctional materials could be made of multicomponents with improved properties, and, especially by rational and elaborate design, their multifunctional elements are integrated into all‐in‐one nanomaterials or nanodevices to target a desired application, which is achieved by the multiple components working in a synergistic or order fashion. Solar‐driven water evaporation is emerging as an attractive means of solar energy utilization. The all‐in‐one design demonstrates the viability of sustainable photothermic driven catalysis and desalination of seawater, which paves an ecofriendly way to increase energy and water production efficacy. In 2017, Cui et al. further realized all‐in‐one mode textile that can perform both passive radiative heating and cooling using the same textile without additional energy consumption.
Emerging Synergistically Multifunctional and All‐in‐One Nanomaterials and Nanodevices in Advanced Environmental Applications
This chapter introduces several examples of designing synergistically multifunctionalized nanomaterials and their advanced environmental applications that are otherwise impossible with conventional methods and systems. The multifunctional materials could be made of multicomponents with improved properties, and, especially by rational and elaborate design, their multifunctional elements are integrated into all‐in‐one nanomaterials or nanodevices to target a desired application, which is achieved by the multiple components working in a synergistic or order fashion. Solar‐driven water evaporation is emerging as an attractive means of solar energy utilization. The all‐in‐one design demonstrates the viability of sustainable photothermic driven catalysis and desalination of seawater, which paves an ecofriendly way to increase energy and water production efficacy. In 2017, Cui et al. further realized all‐in‐one mode textile that can perform both passive radiative heating and cooling using the same textile without additional energy consumption.
Emerging Synergistically Multifunctional and All‐in‐One Nanomaterials and Nanodevices in Advanced Environmental Applications
Wang, Peng (author) / Chang, Jian (author) / Zhang, Lianbin (author)
Artificially Intelligent Nanomaterials ; 299-307
2019-11-25
9 pages
Article/Chapter (Book)
Electronic Resource
English
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