Novel self-assembled porous yolk-shell NiO nanospheres with excellent electrochromic performance for smart windows

With the rapid development of optoelectronics, electrochromic (EC) materials (ECMs) with the advantages of low power consumption, easy viewing, high contrast ratio, etc. have attached more and more attention from the fields of smart windows, electronic billboards, emerging wearable and portable elec...

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Bibliographic Details
Published in:Particuology 2024-01, Vol.84, p.72-80
Main Authors: Wang, Baoshun, Huang, Ya, Zhao, Siming, Li, Run, Gao, Di, Jiang, Hairong, Zhang, Rufan
Format: Article
Language:English
Subjects:
Electrochromic
Hollow structure
Metal-organic frameworks
Nickel oxide
Smart windows
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Summary:With the rapid development of optoelectronics, electrochromic (EC) materials (ECMs) with the advantages of low power consumption, easy viewing, high contrast ratio, etc. have attached more and more attention from the fields of smart windows, electronic billboards, emerging wearable and portable electronics, and other next-generation displays. Nickel oxide (NiO) is a promising candidate for high-performance ECMs because of its neutral-colored states and low cost. However, NiO-based ECMs still face the problem of slow switching speed due to their low electrical conductivity and small lattice spacing. Metal-organic frameworks (MOFs) are promising candidates to fabricate hollow and porous transition metal oxides (TMOs) with high ion transport efficiency, excellent specific capacitance, and electrochemical activities. In this work, porous yolk-shell NiO nanospheres (PYS–NiO NSs) were synthesized via a solvothermal and subsequent calcination process of Ni-MOF, which exhibited outstanding EC performance. Because the large specific surface areas and hollow porous nanostructures were conducive to ionic transport, PYS-NiO NSs exhibited a fast coloring/bleaching speed (3.6/3.9 s per one coloring/bleaching cycle) and excellent cycling stability (82% of capacity retention after 3000 cycles). These superior EC properties indicated that the PYS-NiO NSs was a promising candidate for high-performance EC devices. This work provides a new and feasible strategy for the efficient preparation of TMOs ECMs with good EC performance, especially fast switching speed. [Display omitted] •MOFs were used as a template to fabricate hollow and porous NiO with high electronic conductivity, large specific capacitance, and high electrochemical activities.•A simple and efficient method was developed to synthesize porous yolk-shell NiO nanospheres.•NiO nanospheres exhibited a fast coloring/bleaching speed and excellent cycling stability.•NiO nanospheres demonstrated promising potential applications in the field of smart windows, automotive anti-glare mirrors, intelligent displays, etc.
ISSN:1674-2001
2210-4291
DOI:10.1016/j.partic.2023.03.007