High-entropy type Fe-Ni-P-O-C amorphous Nanospheres:Remarkable Fe-ion migration induced efficient surface reconstruction for oxygen evolution reaction
Shiliu Yang Xinhe Liu Xunlu Wang Yan Lin Sina Cheng Hongyang Gao Fan Zhang Li Li Jiabiao Lian Ulla Lassi Ruguang Ma
High-entropy type Fe-Ni-P-O-C amorphous Nanospheres:Remarkable Fe-ion migration induced efficient surface reconstruction for oxygen evolution reaction
摘要
关键词
High-entropy pre-catalysts/Amorphous nanospheres/Surface reconstruction/Oxygen evolution reaction/Zn-air batteries分类
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Shiliu Yang,Xinhe Liu,Xunlu Wang,Yan Lin,Sina Cheng,Hongyang Gao,Fan Zhang,Li Li,Jiabiao Lian,Ulla Lassi,Ruguang Ma..High-entropy type Fe-Ni-P-O-C amorphous Nanospheres:Remarkable Fe-ion migration induced efficient surface reconstruction for oxygen evolution reaction[J].Advanced Powder Materials,2025,4(5):P.73-82,10.基金项目
financially supported by National Natural Science Foundation of China(22278170,52172058) (22278170,52172058)
Natural Science Foundation of Anhui Province(2408085QB037) (2408085QB037)
Natural Science Foundation of Anhui Provincial Department of Education(2023AH020042,2024AH051721) (2023AH020042,2024AH051721)
financial support from High-Level Talents Introduction and Cultivation Plan of Anhui Province-Young Top Talent,Huainan Innovation and Entrepreneurship Star Team(HNSTD-2024),Huainan Research Center of New Carbon Energy Materials(HNSPT02) (HNSTD-2024)
New Energy Materials and Technology Research Center of Huainan Normal University.Business Finland,BATCircle2.0 project(Grant No.44612/31/2020)is acknowledged for financial support (Grant No.44612/31/2020)
U.L.acknowledges Finnish Research Impact Foundation for Tandem Industry Academy Professorship funding in 2023-2025. ()
