Huijun Zhao scite author profile

More than just an empty shell: Multishelled Co3O4 microspheres were synthesized as anode materials for lithium‐ion batteries in high yield and purity. As their porous hollow multishell structure guarantees a shorter Li+ diffusion length and sufficient void space to buffer the volume expansion, their rate capacity, cycling performance, and specific capacity were excellent (1615.8 mA h g−1 in the 30th cycle for triple‐shelled Co3O4; see graph).

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Growth of Polypyrrole Ultrathin Films on MoS₂Monolayers as High‐Performance Supercapacitor Electrodes

Tang

et al. 2014

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A scalable solution-based approach is developed to controllably grow PPy ultrathin films on 2D MoS2 monolayers. When these sandwiched nanocomposites are utilized as supercapacitor electrodes, a record high specific capacitance, remarkable rate capability, and improved cycling stability are achieved, offering a feasible solution to create the next generation of energy-storage device with superior power density and energy density.

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α-Fe₂O₃multi-shelled hollow microspheres for lithium ion battery anodes with superior capacity and charge retention

Hessel

Ren

et al. 2014

Energy Environ. Sci.

643

366

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Multi-shelled hollow micro-/nanostructures

et al. 2015

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Great progress has been made in the preparation and application of multi-shelled hollow micro-/nanostructures during the past decade. However, the synthetic methodologies and potential applications of these novel and interesting materials have not been reviewed comprehensively in the literature. In the current review we first describe different synthetic methodologies for multi-shelled hollow micro-/nanostructures as well as their compositional and geometric manipulation and then review their applications in energy conversion and storage, sensors, photocatalysis, and drug delivery. The correlation between the geometric properties of multi-shelled hollow micro-/nanostructures and their specific performance in relevant applications are highlighted. These results demonstrate that the geometry has a direct impact on the properties and potential applications of such materials. Finally, the emerging challenges and future development of multi-shelled hollow micro-/nanostructures are further discussed.

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A Hierarchical Z‑Scheme α‐Fe₂O₃/g‐C₃N₄ Hybrid for Enhanced Photocatalytic CO₂ Reduction

et al. 2018

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The challenge in the artificial photosynthesis of fossil resources from CO by utilizing solar energy is to achieve stable photocatalysts with effective CO adsorption capacity and high charge-separation efficiency. A hierarchical direct Z-scheme system consisting of urchin-like hematite and carbon nitride provides an enhanced photocatalytic activity of reduction of CO to CO, yielding a CO evolution rate of 27.2 µmol g h without cocatalyst and sacrifice reagent, which is >2.2 times higher than that produced by g-C N alone (10.3 µmol g h ). The enhanced photocatalytic activity of the Z-scheme hybrid material can be ascribed to its unique characteristics to accelerate the reduction process, including: (i) 3D hierarchical structure of urchin-like hematite and preferable basic sites which promotes the CO adsorption, and (ii) the unique Z-scheme feature efficiently promotes the separation of the electron-hole pairs and enhances the reducibility of electrons in the conduction band of the g-C N . The origin of such an obvious advantage of the hierarchical Z-scheme is not only explained based on the experimental data but also investigated by modeling CO adsorption and CO adsorption on the three different atomic-scale surfaces via density functional theory calculation. The study creates new opportunities for hierarchical hematite and other metal-oxide-based Z-scheme system for solar fuel generation.

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Huijun Zhao

Accurate Control of Multishelled Co₃O₄ Hollow Microspheres as High‐Performance Anode Materials in Lithium‐Ion Batteries

Growth of Polypyrrole Ultrathin Films on MoS₂Monolayers as High‐Performance Supercapacitor Electrodes

α-Fe₂O₃multi-shelled hollow microspheres for lithium ion battery anodes with superior capacity and charge retention

Multi-shelled hollow micro-/nanostructures

A Hierarchical Z‑Scheme α‐Fe₂O₃/g‐C₃N₄ Hybrid for Enhanced Photocatalytic CO₂ Reduction

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About

Huijun Zhao

Accurate Control of Multishelled Co3O4 Hollow Microspheres as High‐Performance Anode Materials in Lithium‐Ion Batteries

Growth of Polypyrrole Ultrathin Films on MoS2Monolayers as High‐Performance Supercapacitor Electrodes

α-Fe2O3multi-shelled hollow microspheres for lithium ion battery anodes with superior capacity and charge retention

Multi-shelled hollow micro-/nanostructures

A Hierarchical Z‑Scheme α‐Fe2O3/g‐C3N4 Hybrid for Enhanced Photocatalytic CO2 Reduction

Contact Info

Product

Resources

About

Accurate Control of Multishelled Co₃O₄ Hollow Microspheres as High‐Performance Anode Materials in Lithium‐Ion Batteries

Growth of Polypyrrole Ultrathin Films on MoS₂Monolayers as High‐Performance Supercapacitor Electrodes

α-Fe₂O₃multi-shelled hollow microspheres for lithium ion battery anodes with superior capacity and charge retention

A Hierarchical Z‑Scheme α‐Fe₂O₃/g‐C₃N₄ Hybrid for Enhanced Photocatalytic CO₂ Reduction