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Effect of Zn precursors on hydrogen storage in MWCNTs-ZnO nanocomposites

Atyaf M. Alazawi, Modher Y. Mohammed, Mustafa A. Alheety, Shankar Sehgal, Pramod K. Singh

2023Results in Chemistry22 citationsDOIOpen Access PDF

Abstract

This research included studying and preparing the complex [Zn(DMB)Cl]2 from the reaction 1 M ratio of 2,6-dimethoxybenzoic acid ligand (DMB) with one molar ratio of aqueous zinc chloride in the presence of triethylamine. This complex was diagnosed by several techniques including FT-IR, 1H NMR, elemental analysis and molar conductivity. The MWCNTS-ZnO composite was prepared by reacting the complex [Zn(DMB)Cl]2 with carbon nanotubes using an ultrasound device. The novelty of this work is mainly based on the use of zinc acetate and [Zn(DMB)Cl]2 in the preparation of MWCNTS-ZnO(acetate) and MWCNTS-ZnO(complex) nanocomposites, respectively, in order to determine the importance of raw materials and their effects on the ability to store hydrogen. Thereafter, hydrogen storage was measured as a prospective study of the MWCNTS-ZnO composites. The study proves that the maximum H2 storage was 4.3 wt% H2 using MWCNTS-ZnO(complex) at a pressure of 85 bar and a temperature of 77 K. Therefore, the kinetic and thermodynamic calculations were made for this composite to complete the study. The enthalpy value was 0.8771 KJ/(mol H2), the entropy value was 4.7029 (J/mol H2.K), and the separation factor RF was 0.168148. However, the adsorption process was compatible with the pseudo-second order reaction with a value of R2 = 0.9341. Moreover, the measurement shows that the nanocomposite has the ability to reach the highest storage value in only 30 s at a pressure of 85 bar.

Topics & Concepts

Hydrogen storageNanocompositeChemistryZincCarbon nanotubeHydrogenNuclear chemistryChemical engineeringEnthalpyInorganic chemistryMaterials scienceOrganic chemistryNanotechnologyThermodynamicsEngineeringPhysicsHydrogen Storage and MaterialsHybrid Renewable Energy SystemsAmmonia Synthesis and Nitrogen Reduction
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