A high-performance electrochromic device assembled with hexagonal WO3 and NiO/PB composite nanosheet electrodes towards energy storage smart window

Pan, Jianbo; Zheng, Rongzong; Wang, Yi; Ye, Xingke; Wan, Zhongquan; Jia, Chunyang; Weng, Xiaolong; Xie, Jianliang; Deng, Longjiang

doi:10.1016/j.solmat.2019.110337

Cited by 88 publications

(45 citation statements)

References 49 publications

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“…The device in the laboratory scale showed noticeable electrochromic energy storage with a specific capacity of 75.3 mAh g −1 . In May 2020, Pan et al [83] demonstrated a device using novel NiO/PB composite hexagon nanosheets that exhibited a high areal capacitance of 11.50 mF cm −2 . NiO/PB composite nanosheet electrode exhibited higher exchanged charge density, larger optical modulation, and better cyclic stability.…”

Section: Electrochromic Energy Storage Window (Eesd)mentioning

confidence: 99%

A Systematic Review of the Most Recent Concepts in Smart Windows Technologies with a Focus on Electrochromics

Brzezicki

2021

Sustainability

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In the context of sustainability and in the face of ambitious goals towards the reduction of CO2 emission, the modification of transparency in architecture becomes an important tool of energy flow management into the building. Windows that dim to stop the energy transfer reduce the cooling load in the building. Recently, however, the latest achievements in the development of electrochromic materials allowed us to integrate some additional—previously unknown—functionalities into EC devices. The purpose of this paper is to provide a systematic review of recent technological innovations in the field of smart windows and present the possibilities of recently established functionalities. This review article outlines recent general progress in electrochromic but concentrates on multicolour and neutral black electrochromism, spectrally selective systems, electrochromic energy storage windows, hybrid EC/TC systems, OLED lighting integrated with the EC device, and EC devices powered by solar cells. The review was based on the most recent publication from the years 2015–2020 recorded in the databases WoS and Scopus.

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Section: Electrochromic Energy Storage Window (Eesd)mentioning

confidence: 99%

A Systematic Review of the Most Recent Concepts in Smart Windows Technologies with a Focus on Electrochromics

Brzezicki

2021

Sustainability

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“…As mentioned above, tungsten oxide is not only one of the candidates of electrode material in ESDs, including LIBs and SCs, but also an excellent material for ECDs. One device integrating these two functions has come into reality [ 157 , 158 ]. The idea of this integration rests chiefly on the following arguments.…”

Section: Electrochromic Energy Storage Devices (Ecesds)mentioning

confidence: 99%

Advances in Electrochemical Energy Devices Constructed with Tungsten Oxide-Based Nanomaterials

Han

Shi

2021

Nanomaterials

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Tungsten oxide-based materials have drawn huge attention for their versatile uses to construct various energy storage devices. Particularly, their electrochromic devices and optically-changing devices are intensively studied in terms of energy-saving. Furthermore, based on close connections in the forms of device structure and working mechanisms between these two main applications, bifunctional devices of tungsten oxide-based materials with energy storage and optical change came into our view, and when solar cells are integrated, multifunctional devices are accessible. In this article, we have reviewed the latest developments of tungsten oxide-based nanostructured materials in various kinds of applications, and our focus falls on their energy-related uses, especially supercapacitors, lithium ion batteries, electrochromic devices, and their bifunctional and multifunctional devices. Additionally, other applications such as photochromic devices, sensors, and photocatalysts of tungsten oxide-based materials have also been mentioned. We hope this article can shed light on the related applications of tungsten oxide-based materials and inspire new possibilities for further uses.

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“…In these crops, blackout screens are used to shorten naturally long days, and block all light to control flowering. [67,68] For switchable blackout screens, transition metal oxides, [69] conjugated polymers, [70] Prussian blue, [71] and dichroic dye [72] based systems have received the most attention. Mechanical solutions are also encountered, such as switchable blinds with absorbers on one face and reflectors on the other.…”

Section: Intensity (Only) Controlmentioning

confidence: 99%

Advanced Optical Materials for Sunlight Control in Greenhouses

Timmermans

Hemming

Baeza

et al. 2020

Advanced Optical Materials

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The increasing demand for efficiently growing vegetation in greenhouses requires continual improvement of the control of the growth environment experienced by the plants. The single most important factor in maximizing the crop’s growth is the quantity, quality, and geometrical distribution of radiation intercepted at every moment. Few available greenhouse coverings are capable of responding to changes in sunlight conditions by themselves, limiting the grower’s control: they must use additional technologies, including screens, artificial lighting, heating, and cooling. This review considers existing efforts in providing adaptable greenhouse covering systems and advanced optical materials for controlling the color, intensity, and/or distribution of sunlight transmitted into greenhouse‐like structures by describing existing static materials and their responsive equivalents. This work also offers speculation on potential applications of other light‐control elements, mostly designed for use in the urban environment that can be adapted for greenhouse use in the future.

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A high-performance electrochromic device assembled with hexagonal WO3 and NiO/PB composite nanosheet electrodes towards energy storage smart window

Cited by 88 publications

References 49 publications

A Systematic Review of the Most Recent Concepts in Smart Windows Technologies with a Focus on Electrochromics

A Systematic Review of the Most Recent Concepts in Smart Windows Technologies with a Focus on Electrochromics

Advances in Electrochemical Energy Devices Constructed with Tungsten Oxide-Based Nanomaterials

Advanced Optical Materials for Sunlight Control in Greenhouses

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