Publication: Building a novel noble metal-free Cu3P/ZnS/g-C3N4 ternary nanocomposite with multi interfacial charge transfer pathways for highly enhanced photocatalytic water splitting
Date
2024
Authors
Rameshbabu R.
Siaw Paw J.K.
Kaviyarasan K.
Jadoun S.
Amalraj J.
Kiong T.S.
Vald�s H.
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier Ltd
Abstract
For renewable energy, it is crucial to create effective photocatalysts with enhanced photo charge separation and transfer to produce photocatalytic hydrogen (H2) efficiently utilizing light energy. Due to their distinct qualities and features, carbonaceous materials have so far been shown to be high-performance co-catalysts to substitute some conventionally costly metal materials in photocatalytic water splitting. Here, a novel ternary nanocomposite, simple hydrothermal process ball milling assisted and wet impregnation approach, a promising ternary nanocomposite is created as an efficient solar light driven photocatalyst. Utilizing a variety of analytical techniques, 3 % Cu3P/ZnS/g-C3N4 nanocomposites as catalysts were characterized in order to check the hydrogen production and investigate their structural properties. The hydrogen production capability of the catalyst is studied by irradiating Na2SO3 + Na2S solutes using a halogen bulb (250 W). The results demonstrated that in terms of photocatalytic activity towards H2 production, 3 % Cu3P/ZnS/g-C3N4 catalyst performed better than 3 % Cu3P/ZnS, Cu3P, ZnS, and g-C3N4. A composite containing 7.5 wt% g-C3N4 demonstrated exceptional durability during photocatalytic hydrogen production, resulting in a 23,086 mol h?1 g?1 rate. Higher stability in electron-hole pairs created a higher absorption level of solar light could be responsible for this remarkable performance. ? 2024 Elsevier Ltd
Description
Keywords
Ball milling , Charge transfer , Hydrogen production , II-VI semiconductors , Image enhancement , Nanocomposites , Photocatalytic activity , Precious metals , Sodium sulfide , Solar light , Solar power generation , Energy , G-C3N4 , H 2 production , Interfacial charge transfer , Metal free , Performance , Photocatalytic water splitting , Ternary nanocomposites , Transfer pathway , ]+ catalyst , Zinc sulfide