Dayong Chen scite author profile

The applications of SnO 2 are benefited from its nanostructure with different sizes and novel morphologies. When the size of nanoparticles reduces to 1-10 nm, the unique physical and chemical properties will make prominent. SnO 2 quantum dots (QDs), a type of zero-dimensional ultrasmall SnO 2 nanomaterials with a size in 1-10 nm, have displayed unique physical and chemical properties, which are different from those of their larger-sized ones. This review summarizes various synthesis strategies of SnO 2 QDs and the methods of their modifications, discusses their applications in lithium-ion batteries, photocatalysis, and gas sensors. These applications profit from the characteristic properties inherent in SnO 2 QDs. IMPACT STATEMENT This paper provides a comprehensive understanding for fabricating SnO 2 quantum dots and their modifications via various methods for the applications in lithium-ion batteries, photocatalytic degradations, and solid-state gas sensors.

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Convenient fabrication of Ni-doped SnO2 quantum dots with improved photodegradation performance for Rhodamine B

Chen

Huang

et al. 2019

Journal of Alloys and Compounds

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Dayong Chen

Environmentally benign synthesis of Co3O4-SnO2 heteronanorods with efficient photocatalytic performance activated by visible light

Highlights on advances in SnO₂ quantum dots: insights into synthesis strategies, modifications and applications

Convenient fabrication of Ni-doped SnO2 quantum dots with improved photodegradation performance for Rhodamine B

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Dayong Chen

Environmentally benign synthesis of Co3O4-SnO2 heteronanorods with efficient photocatalytic performance activated by visible light

Highlights on advances in SnO2 quantum dots: insights into synthesis strategies, modifications and applications

Convenient fabrication of Ni-doped SnO2 quantum dots with improved photodegradation performance for Rhodamine B

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Highlights on advances in SnO₂ quantum dots: insights into synthesis strategies, modifications and applications