Solar energy-driven upcycling of plastic waste on direct Z-scheme heterostructure of V-substituted phosphomolybdic acid/g-C3N4 nanosheets

“…[ 22 ] Plus, the TA kinetic at 500 nm indicates the extended electron lifetime in HOF result from the opening of the Z‐scheme channel, corresponding with the PL‐RL (Figure S23d , Supporting Information), which provides a higher priority and possibility for the carriers. [ 24 ] Those results highlight that the hybrid core–shell structure is conducive to the effective separation of the photogenerated charges.…”

In Situ Assembly of Hydrogen‐Bonded Organic Framework on Metal–Organic Framework: An Effective Strategy for Constructing Core–Shell Hybrid Photocatalyst

“…[ 22 ] Plus, the TA kinetic at 500 nm indicates the extended electron lifetime in HOF result from the opening of the Z‐scheme channel, corresponding with the PL‐RL (Figure S23d , Supporting Information), which provides a higher priority and possibility for the carriers. [ 24 ] Those results highlight that the hybrid core–shell structure is conducive to the effective separation of the photogenerated charges.…”

In Situ Assembly of Hydrogen‐Bonded Organic Framework on Metal–Organic Framework: An Effective Strategy for Constructing Core–Shell Hybrid Photocatalyst

“…9). 115 The bio-mimic Z -scheme heterostructure not only promoted the carrier separation, but also reserved the strong redox ability of electrons and holes to participate in the photodegradation of plastics. The VPOM/CNNS Z -scheme heterojunction exhibited abundant surface-active sites and short charge transport by rationally modulating the surface charge.…”

State of the art in the photochemical degradation of (micro)plastics: from fundamental principles to catalysts and applications

“…14,18 More and more photocatalyst have been developed and applied in photocatalytic conversion of wasted plastics to value-added products, such as Nb 2 O 5 , 19 Ag 2 O/ Fe-MOF, 20 MoS 2 /Cd x Zn 1−x S, 21 etc. [22][23][24][25] However, the existing photocatalysts present some disadvantages, for example, contains toxic Cd element, wide ban gap and need noble metal to generate H 2 . It is a big challenge to develop a noble-free, nontoxic, and high efficiency photocatalyst for photoreforming of plastics to generated H 2 and other valuable products.…”

Visible light driven reform of wasted plastics to generate green hydrogen over mesoporous ZnIn₂S₄