Rationally Designed n–n Heterojunction with Highly Efficient Solar Hydrogen Evolution

Abstract: In most of the reported n-n heterojunction photocatalysts, both the conduction and valence bands of one semiconductor are more negative than those of the other semiconductor. In this work, we designed and synthesized a novel n-n heterojunction photocatalyst, namely CdS-ZnWO4 heterojunctions, in which ZnWO4 has more negative conduction band and more positive valence band than those of CdS. The hydrogen evolution rate of CdS-30 mol %-ZnWO4 reaches 31.46 mmol h(-1)  g(-1) under visible light, which is approximate… Show more

“…This process continues until the equilibrium is attained (Equalized Fermi level Ef) with generation of build in electric field directed from LCO to APO [41]. When heterojunction is illuminated by solar light (Figure 10b), the generated built-in field promotes the formation of photogenerated charge carriers in APO, which will flow the electrons towards LCO [41].…”

Graphene-wrapped Ag 3 PO 4 /LaCO 3 OH heterostructures for water purification under visible light

“…This process continues until the equilibrium is attained (Equalized Fermi level Ef) with generation of build in electric field directed from LCO to APO [41]. When heterojunction is illuminated by solar light (Figure 10b), the generated built-in field promotes the formation of photogenerated charge carriers in APO, which will flow the electrons towards LCO [41].…”

Graphene-wrapped Ag 3 PO 4 /LaCO 3 OH heterostructures for water purification under visible light

“…30,[32][33][34] Nevertheless, it tends to have short carrier diffusion lengths and facility to recombine electron-hole pairs, being thus ineffective in driving photocatalytic reactions. 4,37 So far, both iron-doped TiO 2 9,17,18,20,23,38 and mixed Fe-Ti oxides 2,7,10,16,24,36 have been used in a variety of photocatalytic degradation processes not only in the liquid phase, 2,7,16,18,19,22,28,38 but also in the gas phase. In particular, the development of Fe 2 O 3 -TiO 2 nanostructures offers, in principle, a possible solution for the production of photocatalysts with improved charge transport properties and functional performances, 2,20,36 even upon solar/vis illumination.…”

Fe₂O₃–TiO₂nanosystems by a hybrid PE-CVD/ALD approach: controllable synthesis, growth mechanism, and photocatalytic properties

“…Fig. S9 [23]. The photocatalytic mechanism is proposed for the observed UV, visible and NIR photocatalytic activity of Mott-Schottky-type Ag/Ag 2 O heterostructures (Fig.…”

Synthesis of novel Ag/Ag2O heterostructures with solar full spectrum (UV, visible and near-infrared) light-driven photocatalytic activity and enhanced photoelectrochemical performance