Approaching Ultimate Synthesis Reaction Rate of Ni-Rich Layered Cathodes for Lithium-Ion BatteriesOACSTPCDEI
Nickel-rich layered oxide LiNi_(x)Co_(y)MnzO_(2)(NCM,x+y+z=1)is the most promising cathode material for high-energy lithium-ion batteries.However,conventional synthesis methods are limited by the slow heating rate,sluggish reaction dynamics,high energy consumption,and long reaction time.To overcome these chal-lenges,we first employed a high-temperature shock(HTS)strategy for fast synthesis of the NCM,and the approaching ultimate reaction rate of solid phase transition is deeply investigated for the first time.In the HTS process,ultrafast average reaction rate of phase transition from Ni_(0.6)Co_(0.2)Mn_(0.2)(OH)_(2) to Li-containing oxides is 66.7(%s^(-1)),that is,taking only 1.5 s.An ultrahigh heating rate leads to fast reaction kinetics,which induces the rapid phase transition of NCM cathodes.The HTS-synthesized nickel-rich layered oxides perform good cycling performances(94%for NCM523,94%for NCM622,and 80%for NCM811 after 200 cycles at 4.3 V).These findings might also assist to pave the way for preparing effectively Ni-rich layered oxides for lithium-ion batteries.
Zhedong Liu;Jingchao Zhang;Jiawei Luo;Zhaoxin Guo;Haoran Jiang;Zekun Li;Yuhang Liu;Zijing Song;Rui Liu;Wei-Di Liu;Wenbin Hu;Yanan Chen;
School of Materials Science and Engineering,Tianjin University,Tianjin 300072,People''s Republic of ChinaSchool of Materials Science and Engineering,Shandong University of Science and Technology,Qingdao 266590,People''s Republic of ChinaAustralian Institute of Bioengineering and Nanotechnology,The University of Queensland,St Lucia,QLD 4072,Australia
动力与电气工程
Nickel-rich layered oxidesHigh-temperature shockSolid reaction kineticsPhase transitionReaction rate
《Nano-Micro Letters》 2024 (010)
P.392-402 / 11
the financial support from the National Natural Science Foundation of China(Grant Nos.92372107 and 52171219).
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