Rapid Identification of Efficient Photocatalysts by Visualizing the Spatial Distribution of Photoinduced Charge Carriers

Abstract: The design of high performance photocatalysts is of great importance for solar energy conversion. However, the rapid identification of efficient photocatalysts is challenging because of the complex dynamics of photoinduced charge carriers. Herein, we develop an experimental descriptor, the average fluorescence intensity (AFI), to rapidly identify high-performance photocatalysts using fluorescence microscopic visualization of charge dynamics. As a proof of concept, the CuFeO 2 /ZIF-67 heterojunction was used to… Show more

“…Furthermore, lower resistance to interfacial charge transfer is indicated by a smaller arc diameter of Nyquist plots. 36,37 Fig. 10(d) shows that Fe-nPPy/BiOI-3 has a smaller arc diameter than pure BiOI and Fe-nPPy, indicating more favourable photoinduced electron–hole pair separation and transfer in it.…”

Facile synthesis of Z-scheme Fe-nPPy/BiOI nanocomposites for enhanced visible light driven photocatalytic activity

“…Furthermore, lower resistance to interfacial charge transfer is indicated by a smaller arc diameter of Nyquist plots. 36,37 Fig. 10(d) shows that Fe-nPPy/BiOI-3 has a smaller arc diameter than pure BiOI and Fe-nPPy, indicating more favourable photoinduced electron–hole pair separation and transfer in it.…”

Facile synthesis of Z-scheme Fe-nPPy/BiOI nanocomposites for enhanced visible light driven photocatalytic activity

Core-shell nanoconfinement: Nanoreactors for directional electron migration in photothermal-assisted photocatalytic hydrogen production

Defects and plasma Ag co-modified S-scheme Ag/NVs-CN/Bi2O2-δCO3 heterojunction with multilevel charge transfer channels for boosting full-spectrum-driven degradation of antibiotics