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Video-based pooled screening yields improved far-red genetically encoded voltage indicators

https://doi.org/10.1038/s41592-022-01743-5

Tian, He ; Davis, Hunter C ; Wong-Campos, J David ; Park, Pojeong ; Fan, Linlin Z ; Gmeiner, Benjamin ; Begum, Shahinoor ; Werley, Christopher A ; Borja, Gabriel B ; Upadhyay, Hansini ; et al ( July 2023 , Nature Methods)

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Precision defect engineering of metal/insulator/metal diodes using atomic layer deposition to localize Ni impurities in Al 2 O 3 tunnel barriers

https://doi.org/10.1063/5.0045721

Holden, Konner E. K. ; Qi, Yitong ; Conley, Jr., John F. ( April 2021 , Journal of Applied Physics)
Rocking-Chair Ammonium-Ion Battery: A Highly Reversible Aqueous Energy Storage System

https://doi.org/10.1002/anie.201707473

Wu, Xianyong ; Qi, Yitong ; Hong, Jessica J. ; Li, Zhifei ; Hernandez, Alexandre S. ; Ji, Xiulei ( October 2017 , Angewandte Chemie International Edition)
Rocking‐Chair Ammonium‐Ion Battery: A Highly Reversible Aqueous Energy Storage System

https://doi.org/10.1002/ange.201707473

Wu, Xianyong ; Qi, Yitong ; Hong, Jessica J. ; Li, Zhifei ; Hernandez, Alexandre S. ; Ji, Xiulei ( September 2017 , Angewandte Chemie)

Abstract
Aqueous rechargeable batteries are promising solutions for large‐scale energy storage. Such batteries have the merit of low cost, innate safety, and environmental friendliness. To date, most known aqueous ion batteries employ metal cation charge carriers. Here, we report the first “rocking‐chair” NH₄‐ion battery of the full‐cell configuration by employing an ammonium Prussian white analogue, (NH₄)_1.47Ni[Fe(CN)₆]_0.88, as the cathode, an organic solid, 3,4,9,10‐perylenetetracarboxylic diimide (PTCDI), as the anode, and 1.0 maqueous (NH₄)₂SO₄as the electrolyte. This novel aqueous ammonium‐ion battery demonstrates encouraging electrochemical performance: an average operation voltage of ca. 1.0 V, an attractive energy density of ca. 43 Wh kg⁻¹based on both electrodes’ active mass, and excellent cycle life over 1000 cycles with 67 % capacity retention. Importantly, the topochemistry results of NH₄⁺in these electrodes point to a new paradigm of NH₄⁺‐based energy storage.

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