Quan Jin 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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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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Multishelled TiO₂ Hollow Microspheres as Anodes with Superior Reversible Capacity for Lithium Ion Batteries

et al. 2014

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Herein, uniform multishelled TiO2 hollow microspheres were synthesized, especially 3- and 4-shelled TiO2 hollow microspheres were synthesized for the first time by a simple sacrificial method capable of controlling the shell thickness, intershell spacing, and number of internal multishells, which are achieved by controlling the size, charge, and diffusion rate of the titanium coordination ions as well as the calcination process. Used as anodes for lithium ion batteries, the multishelled TiO2 hollow microspheres show excellent rate capacity, good cycling performance, and high specific capacity. A superior capacity, up to 237 mAh/g with minimal irreversible capacity after 100 cycles is achieved at a current rate of 1 C (167.5 mA/g), and a capacity of 119 mAh/g is achieved at a current rate of 10 C even after 1200 cycles.

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Quan Jin

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

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

Multi-shelled hollow micro-/nanostructures

Multishelled TiO₂ Hollow Microspheres as Anodes with Superior Reversible Capacity for Lithium Ion Batteries

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Quan Jin

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

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

Multi-shelled hollow micro-/nanostructures

Multishelled TiO2 Hollow Microspheres as Anodes with Superior Reversible Capacity for Lithium Ion Batteries

Contact Info

Product

Resources

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

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

Multishelled TiO₂ Hollow Microspheres as Anodes with Superior Reversible Capacity for Lithium Ion Batteries