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Recycling Rusty Iron with Natural Zeolite Heulandite to Create a Unique Nanocatalyst for Green Hydrogen Production

Corrosion-induced iron rust causes severe danger, pollution, and economic problems. In this work, nanopowders of Fe(2)O(3) and Fe(2)O(3)/zeolite are synthesized for the first time using rusted iron waste and natural zeolite heulandite by chemical precipitation. The chemical composition, nanomorpholo...

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Detalles Bibliográficos
Autores principales: Shaban, Mohamed, BinSabt, Mohammad, Ahmed, Ashour M., Mohamed, Fatma
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8704551/
https://www.ncbi.nlm.nih.gov/pubmed/34947794
http://dx.doi.org/10.3390/nano11123445
Descripción
Sumario:Corrosion-induced iron rust causes severe danger, pollution, and economic problems. In this work, nanopowders of Fe(2)O(3) and Fe(2)O(3)/zeolite are synthesized for the first time using rusted iron waste and natural zeolite heulandite by chemical precipitation. The chemical composition, nanomorphologies, structural parameters, and optical behaviors are investigated using different techniques. The Fe(2)O(3)/zeolite nanocomposite showed smaller sizes and greater light absorption capability in visible light than Fe(2)O(3) nanopowder. The XRD pattern shows crystalline hematite (α-Fe(2)O(3)) with a rhombohedral structure. The crystallite sizes for the plane (104) of the Fe(2)O(3) and Fe(2)O(3)/zeolite are 64.84 and 56.53 nm, respectively. The Fe(2)O(3) and Fe(2)O(3)/zeolite have indirect bandgap values of 1.87 and 1.91 eV and direct bandgap values of 2.04 and 2.07 eV, respectively. Fe(2)O(3) and Fe(2)O(3)/zeolite nanophotocatalysts are used for solar photoelectrochemical (PEC) hydrogen production. The Fe(2)O(3)/zeolite exhibits a PEC catalytic hydrogen production rate of 154.45 mmol/g.h @ 1 V in 0.9 M KOH solution, which is the highest value yet for Fe(2)O(3)-based photocatalysts. The photocurrent density of Fe(2)O(3)/zeolite is almost two times that of Fe(2)O(3) catalyst, and the IPCE (incident photon-to-current conversion efficiency) reached ~27.34%@307 nm and 1 V. The electrochemical surface area (ECSA) values for Fe(2)O(3) and Fe(2)O(3)/zeolite photocatalysts were 7.414 and 21.236 m(2)/g, respectively. The rate of hydrogen production for Fe(2)O(3)/zeolite was 154.44 mmol h(−1)/g. This nanophotocatalyst has a very low PEC corrosion rate of 7.6 pm/year; it can retain ~97% of its initial performance. Therefore, the present research can be applied industrially as a cost-effective technique to address two issues at once by producing solar hydrogen fuel and recycling the rusted iron wires.