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An Efficient Steam‐Induced Heterostructured Air Electrode for Protonic Ceramic Electrochemical Cells
Advanced Functional Materials, 2022The development of active and durable air electrodes is of great significance to the maturity of reversible protonic ceramic electrochemical cells (R‐PCECs). This article reports the recent findings in the performance enhancement of R‐PCECs using a novel
Kang Xu +10 more
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Multiferroic Heterostructures Integrating Ferroelectric and Magnetic Materials
Advanced Materials, 2015Multiferroic heterostructures can be synthesized by integrating monolithic ferroelectric and magnetic materials, with interfacial coupling between electric polarization and magnetization, through the exchange of elastic, electric, and magnetic energy. Although the nature of the interfaces remains to be unraveled, such cross coupling can be utilized to ...
Jia-Mian, Hu +2 more
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Advanced Functional Materials, 2022
The oxygen evolution reaction (OER) remains a bottleneck for the overall water splitting. Electrocatalysts with superior activity and stability are still highly desired.
Mingxing Chen +8 more
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The oxygen evolution reaction (OER) remains a bottleneck for the overall water splitting. Electrocatalysts with superior activity and stability are still highly desired.
Mingxing Chen +8 more
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Designing the Bending Stiffness of 2D Material Heterostructures
Advanced Materials, 2021Abstract2D monolayers represent some of the most deformable inorganic materials, with bending stiffnesses approaching those of lipid bilayers. Achieving 2D heterostructures with similar properties would enable a new class of deformable devices orders of magnitude softer than conventional thin‐film electronics.
Jaehyung Yu +7 more
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Chemical Engineering Journal, 2019
Layered Li-rich manganese-based cathode material, Li1.2Ni0.13Co0.13Mn0.54O2, is prepared by a facile solvothermal method, followed by calcination at high temperature.
Lun Ku +8 more
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Layered Li-rich manganese-based cathode material, Li1.2Ni0.13Co0.13Mn0.54O2, is prepared by a facile solvothermal method, followed by calcination at high temperature.
Lun Ku +8 more
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AlxGa1-xN-Based Materials and Heterostructures
MRS Proceedings, 1996ABSTRACTWe present the metalorganic chemical vapor deposition growth, n-type and p-type doping and characterization of AlxGa1-xN alloys on sapphire substrates. We report the fabrication of Bragg reflectors and the demonstration of two dimensional electron gas structures using AlxGa1-xN high quality films.
P. Kung +6 more
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Advances in Materials, 2018
Lithium‐rich layered oxides with the capability to realize extraordinary capacity through anodic redox as well as classical cationic redox have spurred extensive attention.
Xu-Dong Zhang +6 more
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Lithium‐rich layered oxides with the capability to realize extraordinary capacity through anodic redox as well as classical cationic redox have spurred extensive attention.
Xu-Dong Zhang +6 more
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Journal of Materials Chemistry A, 2019
Heterostructured Fe1−xS@S-doped carbon hollow spheres have been prepared as sodium ion battery anode material with superior rate capability and excellent long-term cycling stability.
Q. Pan +8 more
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Heterostructured Fe1−xS@S-doped carbon hollow spheres have been prepared as sodium ion battery anode material with superior rate capability and excellent long-term cycling stability.
Q. Pan +8 more
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Advances in Materials, 2020
The efficiency of splitting water into hydrogen and oxygen is highly dependent on the catalyst used. Herein, ultrathin Ni(0)‐embedded Ni(OH)2 heterostructured nanosheets, referred to as Ni/Ni(OH)2 nanosheets, with superior water splitting activity are ...
Lei Dai +5 more
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The efficiency of splitting water into hydrogen and oxygen is highly dependent on the catalyst used. Herein, ultrathin Ni(0)‐embedded Ni(OH)2 heterostructured nanosheets, referred to as Ni/Ni(OH)2 nanosheets, with superior water splitting activity are ...
Lei Dai +5 more
semanticscholar +1 more source
Semiconductor Materials and Heterostructures
2011We give a survey of semiconductor materials suitable for preparation of semiconductor lasers. The materials are compounds of elements of the third and fifth group of the periodic table or compounds of elements of the second and the sixth group. The compounds have energy gaps corresponding to gap frequencies ranging from the infrared to the near UV.
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