Igor A. Pašti scite author profile

New electrode materials for alkaline-ion batteries are a timely topic. Among many promising candidates, V2O5 is one of the most interesting cathode materials. While having very high theoretical capacity, in practice, its performance is hindered by its low stability and poor conductivity. As regards the theoretical descriptions of V2O5, common DFT-GGA calculations fail to reproduce both the electronic and crystal structures. While the band gap is underestimated, the interlayer spacing is overestimated as weak dispersion interactions are not properly described within GGA. Here we show that the combination of the DFT+U method and semi-empirical D2 correction can compensate for the drawbacks of the GGA when it comes to the modelling of V2O5. When compared to common PBE calculations, with a modest increase in the computational cost, PBE+U+D2 fully reproduced the experimental band gap of V2O5, while the errors in the lattice parameters are only a few percent. Using the proposed PBE+U+D2 methodology we studied the doping of V2O5 with 3d elements (from Sc to Zn). We show that both the structural and electronic parameters are affected by doping. Most importantly, a significant increase in conductivity is expected upon doping, which is of great importance for the application of V2O5 in metal-ion batteries.

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Hydrogen Evolution Reaction-From Single Crystal to Single Atom Catalysts

Gutić

Dobrota

Fako

et al. 2020

Catalysts

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Hydrogen evolution reaction (HER) is one of the most important reactions in electrochemistry. This is not only because it is the simplest way to produce high purity hydrogen and the fact that it is the side reaction in many other technologies. HER actually shaped current electrochemistry because it was in focus of active research for so many years (and it still is). The number of catalysts investigated for HER is immense, and it is not possible to overview them all. In fact, it seems that the complexity of the field overcomes the complexity of HER. The aim of this review is to point out some of the latest developments in HER catalysis, current directions and some of the missing links between a single crystal, nanosized supported catalysts and recently emerging, single-atom catalysts for HER.

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Efficient hydrogen evolution electrocatalysis in alkaline medium using Pd-modified zeolite X

Vasić

Čebela

Pašti

et al. 2018

Electrochimica Acta

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Igor A. Pašti

Structural and electronic properties of V₂O₅ and their tuning by doping with 3d elements – modelling using the DFT+U method and dispersion correction

Hydrogen Evolution Reaction-From Single Crystal to Single Atom Catalysts

Efficient hydrogen evolution electrocatalysis in alkaline medium using Pd-modified zeolite X

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Igor A. Pašti

Structural and electronic properties of V2O5 and their tuning by doping with 3d elements – modelling using the DFT+U method and dispersion correction

Hydrogen Evolution Reaction-From Single Crystal to Single Atom Catalysts

Efficient hydrogen evolution electrocatalysis in alkaline medium using Pd-modified zeolite X

Contact Info

Product

Resources

About

Structural and electronic properties of V₂O₅ and their tuning by doping with 3d elements – modelling using the DFT+U method and dispersion correction