Abstract
The agenda of the Sustainable Development Goals of the United Nations calls for an increase in the share of renewable energy worldwide in the next ten years. Artificial photosynthesis, which is the conversion of sunlight, water, and carbon dioxide into chemicals, offers a promising alternative. Energy is stored in chemical bonds of molecules such as hydrogen or hydrocarbons, and this energy can be released upon need. Semiconductor materials and catalysts are the most important constituents of artificial photosynthetic systems. Herein, we will present an approach to design strategies for the synthesis and integration of photoelectrocatalytic materials for selective and stable operation.
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