Libin Zhuang scite author profile

A novel concept for the preparation of multiphase composite ceramics based on demixing of a single ceramic precursor has been developed and used for the synthesis of a dual-phase H2 -permeable ceramic membrane. The precursor BaCe0.5 Fe0.5 O3-δ decomposes on calcination at 1370 °C for 10 h into two thermodynamically stable oxides with perovskite structures: the cerium-rich oxide BaCe0.85 Fe0.15 O3-δ (BCF8515) and the iron-rich oxide BaCe0.15 Fe0.85 O3-δ (BCF1585), 50 mol % each. In the resulting dual-phase material, the orthorhombic perovskite BCF8515 acts as the main proton conductor and the cubic perovskite BCF1585 as the main electron conductor. The dual-phase membrane shows an extremely high H2 permeation flux of 0.76 mL min(-1) cm(-2) at 950 °C with 1.0 mm thickness. This auto-demixing concept should be applicable to the synthesis of other ionic-electronic conducting ceramics.

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Polycation ionic liquid tailored PEO-based solid polymer electrolytes for high temperature lithium metal batteries

Tan

Dai

et al. 2020

Energy Storage Materials

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Introduction of metal precursors by electrodeposition for the in situ growth of metal–organic framework membranes on porous metal substrates

et al. 2017

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Phase transformation and grain-boundary segregation in Al-Doped Li7La3Zr2O12 ceramics

Zhuang

Huang

et al. 2021

Ceramics International

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Anion doping CO2-stable oxygen permeable membranes for syngas production

Xue

Zhuang

et al. 2018

Chemical Engineering Journal

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Libin Zhuang

A Dual‐Phase Ceramic Membrane with Extremely High H₂ Permeation Flux Prepared by Autoseparation of a Ceramic Precursor

Polycation ionic liquid tailored PEO-based solid polymer electrolytes for high temperature lithium metal batteries

Introduction of metal precursors by electrodeposition for the in situ growth of metal–organic framework membranes on porous metal substrates

Phase transformation and grain-boundary segregation in Al-Doped Li7La3Zr2O12 ceramics

Anion doping CO2-stable oxygen permeable membranes for syngas production

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Libin Zhuang

A Dual‐Phase Ceramic Membrane with Extremely High H2 Permeation Flux Prepared by Autoseparation of a Ceramic Precursor

Polycation ionic liquid tailored PEO-based solid polymer electrolytes for high temperature lithium metal batteries

Introduction of metal precursors by electrodeposition for the in situ growth of metal–organic framework membranes on porous metal substrates

Phase transformation and grain-boundary segregation in Al-Doped Li7La3Zr2O12 ceramics

Anion doping CO2-stable oxygen permeable membranes for syngas production

Contact Info

Product

Resources

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A Dual‐Phase Ceramic Membrane with Extremely High H₂ Permeation Flux Prepared by Autoseparation of a Ceramic Precursor