Design Study of a Novel, Semi-Solid Li/O_2 Redox Flow Battery

机译：新型半固态Li / O_2氧化还原液流电池的设计研究

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Here we report about the design optimization of a new battery, a non-aqueous Semi-solid Lithium Redox Flow Air (O_2) Battery (SLRFAB) which operates using a semi-solid organic catholyte. Oxygen Redox Reaction (ORR) takes place at the semi-solid electroactive particles dispersed in the catholyte, avoiding the electrode passivation that usually occurs in a conventional Li/O_2 battery, enhancing the capacity and, in turn, the delivered energy. The results of the galvanostatic tests at different currents and flow rates and the practical prototype energy and power are here reported. We demonstrate that up to 700 Wh kg~(-1) and 70 W kg~(-1) is achievable by the optimization of the SLRFAB catholyte composition and current collector size. The strategies to reach and overcome such outstanding results are discussed on the basis of the experimental performance of a lab-scale SLRFAB prototype.

机译：在这里，我们报告了一种新电池的设计优化，该电池是使用半固态有机阴极电解液运行的非水半固态锂氧化还原流动空气（O_2）电池（SLRFAB）。氧气氧化还原反应（ORR）在分散在阴极电解液中的半固态电活性颗粒上发生，避免了常规Li / O_2电池中通常发生的电极钝化，从而提高了容量，进而提高了输送的能量。在此报告了在不同电流和流量下的恒电流测试结果以及实际的原型能量和功率。我们证明通过优化SLRFAB阴极电解液的组成和集电器的尺寸可以达到700 Wh kg〜（-1）和70 W kg〜（-1）。在实验室规模的SLRFAB原型的实验性能的基础上，讨论了达到和克服此类出色结果的策略。

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《Future and present advanced lithium batteries and beyond - a symposium in the honor of prof. Bruno Scrosati》|2016年|1-9|共9页
会议地点 San Diego(US)
作者
F. Soavi; I. Ruggeri; C. Arbizzani;
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Department of Chemistry 'Giacomo Ciamician', Alma Mater Studiorum Universita di Bologna, Via Selmi 2, Bologna, Italy;

Department of Chemistry 'Giacomo Ciamician', Alma Mater Studiorum Universita di Bologna, Via Selmi 2, Bologna, Italy;

Department of Chemistry 'Giacomo Ciamician', Alma Mater Studiorum Universita di Bologna, Via Selmi 2, Bologna, Italy;

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1. A novel concept of Semi-solid, Li Redox Flow Air (O-2) Battery: a breakthrough towards high energy and power batteries [J] . Ruggeri Irene, Arbizzani Catia, Soavi Francesca Electrochimica Acta . 2016,第Null期

机译：半固态，Li Redox Flow Air（O-2）电池的新颖概念：高能动力电池的突破
2. The 2018 F. M. Becket Summer Research Fellowship – Summary Report: Exploring Electronic Conductivity of Slurry or Semi-Solid Electrodes Used for Electrochemical Flow Capacitors and Redox Flow Batteries" name="citation_title [J] . Xinyou Ke The Electrochemical Society interface . 2018,第4期

机译：2018 F. M. Becket夏季研究奖学金–总结报告：探索用于电化学流量电容器和氧化还原液流电池的浆料或半固态电极的电导率” name =“ citation_title
3. Exploring Electronic Conductivity of Slurry or Semi-Solid Electrodes Used for Electrochemical Flow Capacitors and Redox Flow Batteries [J] . Xinyou Ke The Electrochemical Society interface . 2018,第4期

机译：用于电化学流动电容和氧化还原流电池的浆料或半固体电极的电子电导率
4. Design Study of a Novel, Semi-Solid Li/O_2 Redox Flow Battery [C] . F. Soavi, I. Ruggeri, C. Arbizzani Symposium on future and present advanced lithium batteries and beyond . 2016

机译：新型，半固体LI / O_2氧化还原电池的设计研究
5. Non-Aqueous Redox Flow Batteries: Active Species Stability and Cost Saving Design Concepts [D] . Fisher, Sydney Laramie. 2017

机译：非水氧化还原流电池：活性物种稳定性和成本节约设计概念
6. Synchrotron X‐ray Radiography and Tomography of Vanadium Redox Flow Batteries—Cell Design Electrolyte Flow Geometry and Gas Bubble Formation [O] . László Eifert, Nico Bevilacqua, Kerstin Köble, -1

机译：钒氧化还原液流电池的同步X射线照相和断层扫描—电池设计电解质流动几何形状和气泡形成
7. Erratum: Kim, B.-R., et al. A Study on Flow Characteristics and Flow Uniformity for the Efficient Design of a Flow Frame in a Redox Flow Battery. Appl. Sci. 2020, 10, 929 [O] . 2021

机译：错误：Kim，B.-r.等。氧化还原电池中流量框架有效设计的流动特性和流动均匀性研究。苹果。 SCI。 2020,10,929

Design Study of a Novel, Semi-Solid Li/O_2 Redox Flow Battery

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