2022
DOI: 10.31635/ccschem.021.202101180
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A Strategy of Stabilization via Active Energy-Exchange for Bistable Electrochromic Displays

Abstract: As future energy-saving optoelectronics, bistable electrochromic (EC) materials/devices have high energy efficiency for potential applications as smart window, display and information/energy storage, etc., due to the ability of maintaining optical states without energy consumption. However, further development is hindered for the lack of in-depth understanding of related key factors and universally applicable design strategies for bistability. Herein, we reported a new strategy based on "active energy-exchange… Show more

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Cited by 22 publications
(15 citation statements)
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“…Right: transmittance changes in bistable ECD (bottom) under relative electrical stimulation (top). Reproduced from ref . Copyright 2021 Chinese Chemical Society.…”
Section: Electrochromic Materials and Devicessupporting
confidence: 79%
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“…Right: transmittance changes in bistable ECD (bottom) under relative electrical stimulation (top). Reproduced from ref . Copyright 2021 Chinese Chemical Society.…”
Section: Electrochromic Materials and Devicessupporting
confidence: 79%
“…Furthermore, Sean X.-A. Zhang, Yu-Mo Zhang, and coauthors introduced an “active energy-exchange” strategy to limit unwanted electron reversal transfer . Through the process of intermolecular proton transfer (Figure b), the chemical energy of the molecules in a high-energy (unstable) state after an electrochemically driven redox process was actively released.…”
Section: Electrochromic Materials and Devicessupporting
confidence: 79%
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“…The ionic radius of Ca is larger than that of magnesium, which leads to greater flow resistance in the phloem, so it has lower fluidity than magnesium ( Karley & White, 2009 ). Bivalent Ca ions with larger ionic radii are more conducive to the formation of dense and stable calcium phosphate, calcium carboxylate epidermal plant fiber and phloem protein bone structure with the amino acid residues in the cell structure of the peel and the dense cell membrane carboxylate, which also causes the Ca content to be significantly higher than P and Mg content ( Gu et al, 2022a , 2022b ). Eating pears without peeling the fruit first can help supplement the Ca content required by the human body and help maintain the health of both bones and muscles.…”
Section: Discussionmentioning
confidence: 99%
“…The challenges for the commercial application of wearable ECDs mainly lie in the potential properties of electrolytes such as electrochemical stability, electrical conductivity, transparency, self-healing ability, and mechanical properties. 11,12 With the rapid development of electronic products, such as lithium-ion batteries, 13,14 triboelectric nanogenerators, 15 strain sensors, 16,17 and flexible wearable electronic devices, 18,19 the application potential and research of intelligent flexible ECDs have also ushered in a new milestone.…”
Section: Introductionmentioning
confidence: 99%