Shengmin Guo scite author profile

Ni‐rich layered oxides (LiNi1–xMxO2; M = Co, Mn, …) are appealing alternatives to conventional LiCoO2 as cathodes in Li‐ion batteries for automobile and other large‐scale applications due to their high theoretical capacity and low cost. However, preparing stoichiometric LiNi1–xMxO2 with ordered layer structure and high reversible capacity, has proven difficult due to cation mixing in octahedral sites. Herein, in situ studies of synthesis reactions and the associated structural ordering in preparing LiNiO2 and the Co‐substituted variant, LiNi0.8Co0.2O2, are made, to gain insights into synthetic control of the structure and electrochemical properties of Ni‐rich layered oxides. Results from this study indicate a direct transformation of the intermediate from the rock salt structure into hexagonal phase, and during the process, Co substitution facilities the nucleation of a Co‐rich layered phase at low temperatures and subsequent growth and stabilization of solid solution Li(Ni, Co)O2 upon further heat treatment. Optimal conditions are identified from the in situ studies and utilized to obtain stoichiometric LiNi0.8Co0.2O2 that exhibits high capacity (up to 200 mA h g−1 ) with excellent retention. The findings shed light on designing high performance Ni‐rich layered oxide cathodes through synthetic control of the structural ordering in the materials.

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An Ion‐Exchange Promoted Phase Transition in a Li‐Excess Layered Cathode Material for High‐Performance Lithium Ion Batteries

Zhao

Huang

Gao

et al. 2015

Advanced Energy Materials

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batteries crucially relies on electrochemical characteristics of electrode materials, i.e., anode and cathode materials. [ 1 ] Various alternative anode materials have recently been developed, including silicon-based composites, [ 2,3 ] nanoscale transition metal oxides, [ 4,5 ] titanium-based materials, [ 6,7 ] and graphene-based sulfi de, [ 8 ] etc. These materials have demonstrated excellent rate capability and specifi c capacities several times higher than conventional graphite anodes. Since capacities of cathode materials are usually much lower than those of anodes, the cathode is considered as the limiting factor for lithium ion batteries. To a great extent, development of newgeneration lithium ion batteries is limited by the low energy density, low operating voltage, and poor rate capability of cathode materials. [ 9 ] Recently, the emerging Li-excess layered oxides have attracted a great deal of research efforts due to their high capacities. These cathode materials can be cycled over a broad voltage range between 2.0 and 4.8 V versus Li/Li + and deliver specifi c capacities higher than 250 mAh g −1 . They also offer many other advantages such as low cost, environmental benignity, and safety. [ 10 ] A representative example is Li-excess ternary manganese-nickel-cobalt oxide, composed

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Electrocatalytic activity of high-entropy alloys toward oxygen evolution reaction

et al. 2018

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Evolution of hot corrosion resistance of YSZ, Gd2Zr2O7, and Gd2Zr2O7+YSZ composite thermal barrier coatings in Na2SO4+V2O5 at 1050°C

Habibi

Wang

Guo

2012

Journal of the European Ceramic Society

158

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Bibliometric and Visualized Analysis of Stem Cells Therapy for Spinal Cord Injury Based on Web of Science and CiteSpace in the Last 20 Years

et al. 2019

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Shengmin Guo

In Situ Probing and Synthetic Control of Cationic Ordering in Ni‐Rich Layered Oxide Cathodes

An Ion‐Exchange Promoted Phase Transition in a Li‐Excess Layered Cathode Material for High‐Performance Lithium Ion Batteries

Electrocatalytic activity of high-entropy alloys toward oxygen evolution reaction

Evolution of hot corrosion resistance of YSZ, Gd2Zr2O7, and Gd2Zr2O7+YSZ composite thermal barrier coatings in Na2SO4+V2O5 at 1050°C

Bibliometric and Visualized Analysis of Stem Cells Therapy for Spinal Cord Injury Based on Web of Science and CiteSpace in the Last 20 Years

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