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A layered metal chalcogenide, tin selenide is structurally analogous to black phosphorus. It has four electrons in an n-type binary state, and can be used in photo optic applications and semiconductors. The material has a favorable bandgap, but it requires favorable hetero-junction interfaces to perform optimally.
Tin selenide is currently attracting considerable research attention for its use in solar cells, gas sensing, and topological insulators. In addition, it has been demonstrated to be a promising anode material for batteries. However, its practical application is limited. There are other materials with versatile applications.
Tin selenide is a crystalline solid that has been developed as a semiconductor. This material is an earth-abundant element. Like other chalcogenides, it has a favorable bandgap, and has a relatively high absorption coefficient. However, it has a lower efficiency than other compound semiconductor materials. Therefore, more research is needed to understand its potential for bulk thermoelectric applications.
Tin selenide has gained substantial research interest in gas sensing and phase change memory. However, it also has shown a great deal of versatility in other applications, including photodetectors and photocatalytic devices. In fact, it is one of the leading candidates for an anode in a supercapacitor.
Despite its potential as an anode material for a battery, tin selenide is a material that needs precise engineering and morphological development to bring it to a production level. Furthermore, a flexible photodetector based on this material has gained attention for its ease of fabrication and fast device response.
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