Plasma-Wind-Assisted In2S3 Preparation with an Amorphous Surface Structure for Enhanced Photocatalytic Hydrogen Production

Abstract: Photocatalytic production from water is considered an effective solution to fossil fuel-related environmental concerns, and photocatalyst surface science holds a significant interest in balancing photocatalysts’ stability and activity. We propose a plasma-wind method to tune the surface properties of a photocatalyst with an amorphous structure. Theoretical calculation shows that the amorphous surface structure can cause an unsaturated coordination environment to adjust the electron distribution, forming more a… Show more

“…15,16 The development of photocatalysts with narrow bands has become essential to utilize the visible region of the solar spectrum, since the solar spectrum consists of 40% visible light. After that various binary (CdS, 17 In 2 S 3 , 18 CoS, 19 etc. ), composite (ZnCdS-rGO/MoS 2 , 20 MoS 2 /ZnCdS/ZnS, 21 ZnS/ZnO/ MoS 2 , 22 Cu/BN@PANI, 23 Cu(OH) 2 /P(C 3 N 4 )/MoS 2 24 etc.)…”

Colloidal synthesis of a heterostructured CuCo₂S₄/g-C₃N₄/In₂S₃ nanocomposite for photocatalytic hydrogen evolution

“…15,16 The development of photocatalysts with narrow bands has become essential to utilize the visible region of the solar spectrum, since the solar spectrum consists of 40% visible light. After that various binary (CdS, 17 In 2 S 3 , 18 CoS, 19 etc. ), composite (ZnCdS-rGO/MoS 2 , 20 MoS 2 /ZnCdS/ZnS, 21 ZnS/ZnO/ MoS 2 , 22 Cu/BN@PANI, 23 Cu(OH) 2 /P(C 3 N 4 )/MoS 2 24 etc.)…”

Colloidal synthesis of a heterostructured CuCo₂S₄/g-C₃N₄/In₂S₃ nanocomposite for photocatalytic hydrogen evolution

In-MOF-derived In2S3/Bi2S3 heterojunction for enhanced photocatalytic hydrogen production

Non-noble-metal plasmonic parabolic membrane with “pearl necklace” structure for enhanced hydrogen production based on light concentration effect