Maneuverable B-site cation in perovskite tuning anode reaction kinetics in vanadium redox flow batteries  

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作  者:Yingqiao Jiang Zihe Liu Yujie Ren Ao Tang Lei Dai Ling Wang Suqin Liu Yongguang Liu Zhangxing He 

机构地区:[1]School of Chemical Engineering,North China University of Science and Technology,Tangshan 063009,China [2]Institute of Metal Research,Chinese Academy of Sciences,Shenyang 110016,China [3]College of Chemistry and Chemical Engineering,Central South University,Changsha 410083,China

出  处:《Journal of Materials Science & Technology》2024年第19期199-206,共8页材料科学技术(英文版)

基  金:financially supported by the National Natural Science Foundation of China(Grant Nos.51872090 and 51772097);the Hebei Natural Science Fund for Distinguished Young Scholar(Grant No.E2019209433);the Youth Talent Program of Hebei Provincial Education Department(Grant No.BJ2018020);the Natural Science Foundation of Hebei Province(Grant No.E2020209151);the Natural Science Foundation of Liaoning Province(Grant No.2020-MS-012).

摘  要:The actual performance of vanadium redox flow batteries (VRFBs) is still significantly constrained by the slow kinetics and major parasitic reactivity of anode issues. Herein, a B-site management strategy of SrBO3 (B = Ti, Zr, Hf) perovskites was proposed to promote the anode reaction jointly explored by experiments and first-principle calculations. As the atomic number of B increases, the enhanced polarity of the B-O bond and the increased oxygen defect can boost the adsorption of vanadium ions, while the weakened orbital hybridization of the B-O bond facilitates the charge transfer of anode reaction. Compared with SrTiO3 and SrZrO3, oversized particles and deformed crystals of SrHfO3 reduce its catalysis. Of SrBO3 perovskites, SrZrO3 stands out in catalysis, owing to its outstanding combination of high hydrophilicity, large surface area, and desired crystal structure. Further, the VRFB using SrZrO3 presents a superior energy efficiency (EE) of 63.2% at 300 mA cm-2 and an increase of 15% in EE compared with the pristine cell at 200 mA cm-2. This work lays the foundation for building the connections between the structural and compositional flexibility and the tunable perovskite properties desirable for vanadium redox reactions.

关 键 词:Vanadium redox flow battery PEROVSKITE Catalyst Reaction kinetics ANODE 

分 类 号:TM91[电气工程—电力电子与电力传动]

 

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