This finding underscores the importance of molecular design in optimizing electron transfer processes for artificial photosynthesis. Lastly, the electrochemical independence of redox-active ...

Plants harness quantum physics to capture solar energy with near-perfect efficiency. Scientists are now exploring how to ...

We are studying biological electron transfer complexes at the single-molecule ... play a ubiquitous role in facilitating electron transfer (ET) in respiration and photosynthesis by shuttling electrons ...

Researchers at the University of Tsukuba have reported on the structure and light energy transfer efficiency of a protein ...

The thylakoids contain the light-harvesting complex, including pigments such as chlorophyll, as well as the electron transport chains used in photosynthesis (Figure 2). Plant cell walls are ...

Central to BPV systems is the process of extracellular electron transfer (EET), where electrons generated during photosynthesis are harvested by an electrode via mediators such as ferricyanide.

Dr. Edward Clennan is a professor and the Department head of Chemistry. Nature with photosynthesis elegantly uses supramolecular structures to set up an electron transport chain that spatially ...

Photosynthesis occurs in chloroplasts found within cells. It is the chloroplasts that contain the green pigment chlorophyll which absorbs light. The plant uses this glucose to grow as well as make ...

With artificial photosynthesis, scientists mimic nature ... The carbon nitride transfers electron density to the water, forming a hybrid system. "From this point on, the water and the catalyst ...

Photosynthesis occurs in chloroplasts found within cells. It is the chloroplasts that contain the green pigment chlorophyll which absorbs light. The plant uses this glucose to grow as well as make ...