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Core–shell doping of cerium oxide with (Cr–Fe/Co)-B catalyst for enhanced hydrogen evolution in borohydride hydrolysis systems: performance and catalytic efficiency

Ömer Şahi̇n, Ayhan Abdullah Ceyhan, Houssem Lakhali

2025Research on Chemical Intermediates9 citationsDOIOpen Access PDF

Abstract

Abstract Herein, we successfully synthesized a CeO 2 @(Cr–Fe/Co)-B catalyst for hydrogen generation via NaBH 4 and KBH 4 hydrolysis using a hydrothermal method. To investigate the catalytic activity and hydrogen generation rate (HGR) of the catalyst, various parameters, including the catalyst amount, temperature, reusability, and the concentrations of MOH and MBH 4 (M = Na, K), were tested. The catalyst was comprehensively characterized using FE-SEM, EDX, XRD, BET, TEM, XPS, and FTIR. The CeO 2 @(Cr–Fe/Co)-B catalyst exhibited a non-uniform, highly agglomerated, spherical morphology. TEM analysis revealed a core–shell structure with CeO 2 as the core and an 8–16 nm (Cr–Fe/Co)-B shell. BET analysis confirmed the mesoporous nature of the catalyst, with a 27.19 nm pore diameter enabling efficient diffusion and interaction during reactions. The catalyst demonstrated excellent performance, achieving an HGR of 13.05 L g metal ⁻ 1 min⁻ 1 for NaBH 4 hydrolysis with an activation energy of 18.59 kJ mol⁻ 1 and 9.06 L g metal ⁻ 1 min⁻ 1 for KBH 4 hydrolysis with an activation energy of 30.02 kJ mol⁻ 1 . Five consecutive experiments were conducted to evaluate the reusability of CeO 2 @(Cr–Fe/Co)-B for catalytic hydrolysis of NaBH 4 and KBH 4 . Graphical abstract

Topics & Concepts

CatalysisCerium oxideHydrolysisCeriumOxideInorganic chemistryHydrogenBorohydrideDopingMaterials scienceChemistryChemical engineeringOrganic chemistryMetallurgyOptoelectronicsEngineeringElectrocatalysts for Energy ConversionHydrogen Storage and MaterialsCatalysis and Hydrodesulfurization Studies