Songwang Yang scite author profile

CeO2 nanocubes (and nanorods) enclosed by six {200} planes with controlled sizes have been prepared through a facile one-pot method. The nanocubes have a strong tendency to assemble into 2D and 3D arrays with regular patterns on a substrate, which is probably driven by the dipole-dipole interaction of polar {200} planes. The possible formation mechanism of the nanocubes has been put forward as the oriented aggregation mediated precursor growth. It is possible to use the synthesized nanocubes as building blocks to achieve {200}-perfect-oriented monolayers or thickness-controlled films and to apply the preparative method in the incorporation of heterogeneous atoms or nanoparticles for semiconductor doping or heterogeneous nanostructures.

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Facile Synthesis and Shape Evolution of Single‐Crystal Cuprous Oxide

Liang

et al. 2009

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Various morphologies of single‐crystal Cu2O such as cube, octahedron, {110} truncated octahedron, and microrhombic dodecahedron with {110} surfaces are prepared in high yield through a facile solution‐based one‐step reduction method in an alkaline H2O/ethanol/oleic acid system in the presence of d‐(+)‐glucose. The formation mechanism of these microcrystals has been clarified as the synergic effect of oriented attachment and ripening mechanism.

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Ultrasmooth Perovskite Film via Mixed Anti-Solvent Strategy with Improved Efficiency

Yang

Lei

et al. 2017

ACS Appl. Mater. Interfaces

104

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Most antisolvents employed in previous research were miscible with perovskite precursor solution. They always led to fast formation of perovskite even if the intermediate stage existed, which was not beneficial to obtain high quality perovskite films and made the formation process less controllable. In this work, a novel ethyl ether/n-hexane mixed antisolvent (MAS) was used to achieve high nucleation density and slow down the formation process of perovskite, producing films with improved orientation of grains and ultrasmooth surfaces. These high quality films exhibited efficient charge transport at the interface of perovskite/hole transport material and perovskite solar cells based on these films showed greatly improved performance with the best power conversion efficiency of 17.08%. This work also proposed a selection principle of MAS and showed that solvent engineering by designing the mixed antisolvent system can lead to the fabrication of high-performance perovskite solar cells.

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Songwang Yang

Controlled Synthesis and Self-Assembly of CeO₂ Nanocubes

Facile Synthesis and Shape Evolution of Single‐Crystal Cuprous Oxide

Ultrasmooth Perovskite Film via Mixed Anti-Solvent Strategy with Improved Efficiency

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Songwang Yang

Controlled Synthesis and Self-Assembly of CeO2 Nanocubes

Facile Synthesis and Shape Evolution of Single‐Crystal Cuprous Oxide

Ultrasmooth Perovskite Film via Mixed Anti-Solvent Strategy with Improved Efficiency

Contact Info

Product

Resources

About

Controlled Synthesis and Self-Assembly of CeO₂ Nanocubes