Add to ORKGABSTRACT: MnO2 is a technologically important material for energy storage and catalysis. Recent investigations have demonstrated the success of nanostructuring for improving the performance of rutile MnO2 in Li-ion batteries and supercapacitors and as a catalyst. Motivated by this we have investigated the stability and electronic structure of rutile (β-)MnO2 surfaces using density functional theory. A Wulff construction from relaxed surface energies indicates a rod-like equilibrium morphology that is elongated along the c-axis, and is consistent with the large number of nanowire-type structures that are obtainable experimentally. The (110) surface dominates the crystallite surface area. Moreover, higher index surfaces than considered in pre...
Recently, defect engineering has been used to intruduce half-metallicity into selected semiconductor...
Structural and electronic properties of the lambda-MnO2(001) surface are investigated applying densi...
Surface modification of titania surfaces with dispersed metal oxide nanoclusters has the potential t...
We have explored the correlation between the Seebeck coefficient and the electronic structure of nan...
Using first-principle calculations, the surface energy, cohesive energy, and electronic properties o...
ABSTRACT: Manganese oxide materials are attracting considerable interest for clean energy storage ap...
The structural and electronic properties of MnO2 based electrocatalysts are key factors determining ...
Surface modification of titania surfaces with dispersed metal oxide nanoclusters has the potential t...
Manganese oxide materials are attracting considerable interest for clean energy storage applications...
Surface modification of titania surfaces with dispersed metal oxide nanoclusters has the potential t...
Electrocatalysis of the oxygen evolution reaction is central to several energy technologies includin...
Electrocatalysis of the oxygen evolution reaction is central to several energy technologies includin...
© 2018, Tsinghua University Press and Springer-Verlag GmbH Germany. Exposed crystal facets directly ...
Modulation of material physical and chemical properties through selective surface engineering is cur...
We have investigated the properties of defects in MnO bulk and at (100) surfaces, as used in catalyt...
Recently, defect engineering has been used to intruduce half-metallicity into selected semiconductor...
Structural and electronic properties of the lambda-MnO2(001) surface are investigated applying densi...
Surface modification of titania surfaces with dispersed metal oxide nanoclusters has the potential t...
We have explored the correlation between the Seebeck coefficient and the electronic structure of nan...
Using first-principle calculations, the surface energy, cohesive energy, and electronic properties o...
ABSTRACT: Manganese oxide materials are attracting considerable interest for clean energy storage ap...
The structural and electronic properties of MnO2 based electrocatalysts are key factors determining ...
Surface modification of titania surfaces with dispersed metal oxide nanoclusters has the potential t...
Manganese oxide materials are attracting considerable interest for clean energy storage applications...
Surface modification of titania surfaces with dispersed metal oxide nanoclusters has the potential t...
Electrocatalysis of the oxygen evolution reaction is central to several energy technologies includin...
Electrocatalysis of the oxygen evolution reaction is central to several energy technologies includin...
© 2018, Tsinghua University Press and Springer-Verlag GmbH Germany. Exposed crystal facets directly ...
Modulation of material physical and chemical properties through selective surface engineering is cur...
We have investigated the properties of defects in MnO bulk and at (100) surfaces, as used in catalyt...
Recently, defect engineering has been used to intruduce half-metallicity into selected semiconductor...
Structural and electronic properties of the lambda-MnO2(001) surface are investigated applying densi...
Surface modification of titania surfaces with dispersed metal oxide nanoclusters has the potential t...