Can hollow structures use solar energy efficiently?

It has been proposed that hollow structures can utilize solar energy efficiently, which is attributed to the fact that sunlight is repeatedly refracted in hollow materials, and thus improving the utilization of solar energy.

Can hollow photocatalysts be used for solar energy conversion?

The application of hollow photocatalysts for solar energy conversion is reviewed. The potential directions for hollow photocatalysts are proposed. The development of high-efficient photocatalysts plays an important role in the sustainable utilization of solar energy.

Why do we need a hollow nanostructured photocatalyst?

The development of high-efficient photocatalysts plays an important role in the sustainable utilization of solar energy. Hollow nanostructured photocatalysts are vital for solar light utilization and charge carrier separation in photocatalytic processes.

Are hollow structure oxide photocatalysts suitable for solar energy utilization?

Therefore, hollow structure oxide photocatalysts have good application prospects in the process of solar energy utilization, but their thickness limits the scope of application. Therefore, in future development, thinner photocatalysts with hollow structures may be favorable for the improved applicability.

What are hollow photocatalysts?

This review summarizes hollow photocatalysts including oxides, sulfides, nitrides, C 3 N 4, MOF. The effects of different modification methods of hollow photocatalysts are reviewed. The recent development for preparing hollow semiconductor photocatalysts is summarized.

Are hollow photocatalysts good for morphological structures?

In the field of photocatalysis, hollow structures are excellent for morphological structures in artificial photocatalytic systems . First, hollow photocatalysts consist of nanoparticles, which can significantly improve charge separation.