Shape-controlled SnO and their improved properties in the field of gas sensor, photocatalysis, and lithium-ion battery

In this paper, over 20 kinds of tin monoxide (SnO) morphologies are prepared by using a facile solvothermal process. Among all these obtained SnO materials, the shapes with unique morphologies such as bowl-, pompon-, sheet-, hollow frame-like structures exhibit excellent NO2 gas sensing, photocatalytic degradation, and lithiumion batteries properties due to their large specific surface area and more active sites compared with other shapes. For the NO2 gas sensors properties, these SnO with unique morphologies exhibit excellent sensing performance, including low detection limits (<= 100 ppb, even reaching 5 ppb), short response and recovery time (< 100 s). Finally, the as-prepared SnO are used as the efficient photocatalysts and lithium-ion battery anode material. These performances have been improved significantly compared with other shaped SnO proposed by other reports. All these advantages indicate the huge application potential of SnO in the field of photocatalysis, gas sensitivity, and lithium-ion battery performance.

Automated summary

In this study, various morphologies of SnO materials were synthesized using a solvothermal process. SnO samples with unique morphologies, such as bowl-like, pompon-like, sheet-like, and hollow frame-like structures, exhibited excellent NO2 gas sensing, photocatalytic degradation, and lithium-ion battery properties due to their large specific surface area and more active sites. These SnO samples with unique morphologies showed low detection limits, fast response and recovery time for NO2 gas sensing.