Qiangqiang Meng scite author profile

A heterogeneous catalyst made of well-defined Co3 O4 hexagonal platelets with varied exposed facets is coupled with [Ru(bpy)3 ]Cl2 photosensitizers to effectively and efficiently reduce CO2 under visible-light irradiation. Systematic investigation based on both experiment and theory discloses that the exposed {112} facets are crucial for activating CO2 molecules, giving rise to significant enhancement of photocatalytic CO2 reduction efficiency.

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The S-functionalized Ti₃C₂ Mxene as a high capacity electrode material for Na-ion batteries: a DFT study

Meng

et al. 2018

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MXenes are attracting much attention as electrode materials due to their excellent energy storage properties and electrical conductivity, and the energy storage capacities were found to strongly depend on the surface terminal groups. Here S-functionalized TiC as a representative MXene material is designed. Our density functional theory (DFT) calculations are performed to investigate the geometric and electronic properties, dynamic stability, and Na storage capability of TiC, TiCO and TiCS systems. The TiCS monolayer is proved to show metallic behavior and has a stable structure, and meanwhile it also exhibits a low diffusion barrier and high storage capacity (up to TiCSNa stoichiometry) for Na ion batteries (NIBs). The superior properties such as good electrical conductivity, fast charge-discharge rates, low open circuit voltage (OCV), and high theoretical Na storage capacity, make the TiCS monolayer a promising anode material for NIBs compared to the TiCO monolayer. More importantly, similar to the TiCS monolayer, other MXenes with a high charge density difference and suitable lattice constant can be formed, and thus the energy storage properties are worth further study. This finding will be useful to the design of anode materials for NIBs.

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Qiangqiang Meng

A flexible rechargeable aqueous zinc manganese-dioxide battery working at −20 °C

Co₃O₄ Hexagonal Platelets with Controllable Facets Enabling Highly Efficient Visible‐Light Photocatalytic Reduction of CO₂

The S-functionalized Ti₃C₂ Mxene as a high capacity electrode material for Na-ion batteries: a DFT study

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Qiangqiang Meng

A flexible rechargeable aqueous zinc manganese-dioxide battery working at −20 °C

Co3O4 Hexagonal Platelets with Controllable Facets Enabling Highly Efficient Visible‐Light Photocatalytic Reduction of CO2

The S-functionalized Ti3C2 Mxene as a high capacity electrode material for Na-ion batteries: a DFT study

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Product

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Co₃O₄ Hexagonal Platelets with Controllable Facets Enabling Highly Efficient Visible‐Light Photocatalytic Reduction of CO₂

The S-functionalized Ti₃C₂ Mxene as a high capacity electrode material for Na-ion batteries: a DFT study