Dong Hou scite author profile

Configurational disorder can be compositionally engineered into mixed oxide by populating a single sublattice with many distinct cations. The formulations promote novel and entropy-stabilized forms of crystalline matter where metal cations are incorporated in new ways. Here, through rigorous experiments, a simple thermodynamic model, and a five-component oxide formulation, we demonstrate beyond reasonable doubt that entropy predominates the thermodynamic landscape, and drives a reversible solid-state transformation between a multiphase and single-phase state. In the latter, cation distributions are proven to be random and homogeneous. The findings validate the hypothesis that deliberate configurational disorder provides an orthogonal strategy to imagine and discover new phases of crystalline matter and untapped opportunities for property engineering.

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Dynamics of particle network in composite battery cathodes

Sharma

Jiang

et al. 2022

Science

131

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Improving composite battery electrodes requires a delicate control of active materials and electrode formulation. The electrochemically active particles fulfill their role as energy exchange reservoirs through interacting with the surrounding conductive network. We formulate a network evolution model to interpret the regulation and equilibration between electrochemical activity and mechanical damage of these particles. Through statistical analysis of thousands of particles using x-ray phase contrast holotomography in a LiNi 0.8 Mn 0.1 Co 0.1 O 2 -based cathode, we found that the local network heterogeneity results in asynchronous activities in the early cycles, and subsequently the particle assemblies move toward a synchronous behavior. Our study pinpoints the chemomechanical behavior of individual particles and enables better designs of the conductive network to optimize the utility of all the particles during operation.

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Tridecavanadate, [V13O34]3-, a new high-potential isopolyvanadate

Hou¹,

Hagen²,

Hill³

1992

J. Am. Chem. Soc.

101

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Effect of Slag on Inclusions During Electroslag Remelting Process of Die Steel

Dong

Jiang

Cao

et al. 2014

Metall Mater Trans B

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Pentadecavanadate, V₁₅O₄₂^9–, a new highly condensed fully oxidized isopolyvanadate with kinetic stability in water

Hou¹,

Hagen²,

Hill³

1993

J. Chem. Soc., Chem. Commun.

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The X-ray structure of the new fully oxidized isopolyvanadate, (TMA)3H6VV,5042'2.5H20 1 (TMA = tetramethylammonium), prepared by reaction of H202 with VOS04.4H20 shows a bicapped Keggin structure with four-, five-and six-coordinate vanadium atoms; 51V NMR indicates that the same structure has considerable kinetic stability in water at ca. pH 3.5 but is thermodynamically unstable with respect to the conventional VV100286-structure.

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Dong Hou

Entropy-stabilized oxides

Dynamics of particle network in composite battery cathodes

Tridecavanadate, [V13O34]3-, a new high-potential isopolyvanadate

Effect of Slag on Inclusions During Electroslag Remelting Process of Die Steel

Pentadecavanadate, V₁₅O₄₂^9–, a new highly condensed fully oxidized isopolyvanadate with kinetic stability in water

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Dong Hou

Entropy-stabilized oxides

Dynamics of particle network in composite battery cathodes

Tridecavanadate, [V13O34]3-, a new high-potential isopolyvanadate

Effect of Slag on Inclusions During Electroslag Remelting Process of Die Steel

Pentadecavanadate, V15O429–, a new highly condensed fully oxidized isopolyvanadate with kinetic stability in water

Contact Info

Product

Resources

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Pentadecavanadate, V₁₅O₄₂^9–, a new highly condensed fully oxidized isopolyvanadate with kinetic stability in water