Semi-artificial photosynthesis integrates the high selectivity of living biosystems and the broad-range light-harvesting of semi-conductive materials, which enables sustainable light-driven ...
The breakthrough was made by successfully splitting water into hydrogen and oxygen using 'semi-artificial photosynthesis', a process done by altering the photosynthetic machinery in plants.
Artificial photosynthesis is attracting much attention amid various efforts to develop renewable energies. One of the problems of solar power is the difficulty of storing electricity. In contrast, ...
In 2021, researchers from Toyota Central R&D Labs developed a large, cost-effective artificial photosynthesis system that produces industrial formate at a solar-to-chemical conversion efficiency ...
During natural photosynthesis, chlorophyll absorbs light energy and transfers electrons to convert it into chemical energy. Artificial photosynthesis, which emulates this natural process of ...
Hydrogen, a promising and clean fuel, is at the center of research on green energy. However, its production via artificial photosynthesis had so far been hampered by limited efficiency. Japanese ...
During natural photosynthesis, chlorophyll absorbs light energy and transfers electrons to convert it into chemical energy. Artificial photosynthesis, which emulates this natural process of ...
Recently, a team of scientists from the Japan Advanced Institute of Science and Technology (JAIST) and the University of Tokyo sought to investigate how artificial photosynthesis could help us ...
During natural photosynthesis, chlorophyll absorbs light energy and transfers electrons to convert it into chemical energy. Artificial photosynthesis, which emulates this natural process of ...
said it has gone one better than even plants, improving the efficiency of its artificial photosynthesis technology to a world record level. The Toyota Motor Corp. group research institute ...