Q
Qasim Al-Naddaf
Researcher at Missouri University of Science and Technology
Publications - 17
Citations - 574
Qasim Al-Naddaf is an academic researcher from Missouri University of Science and Technology. The author has contributed to research in topics: Adsorption & Zeolite. The author has an hindex of 7, co-authored 15 publications receiving 304 citations.
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Journal ArticleDOI
3D-Printed Metal–Organic Framework Monoliths for Gas Adsorption Processes
TL;DR: The fabrication of MOF monoliths using the 3D printing technique and evaluation of their adsorptive performance in CO2 removal from air highlight the advantage of the robocasting (3D printing) technique for shaping MOF materials into practical configurations that are suitable for various gas separation applications.
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UTSA-16 Growth within 3D-Printed Co-Kaolin Monoliths with High Selectivity for CO2/CH4, CO2/N2, and CO2/H2 Separation
Shane Lawson,Qasim Al-Naddaf,Anirudh Krishnamurthy,Marc St. Amour,Connor Griffin,Ali A. Rownaghi,James C. Knox,Fateme Rezaei +7 more
TL;DR: 3D printing was utilized to impregnate kaolin-based monolith with UTSA-16 metal formation precursor (Co), whereupon an internal growth was facilitated via a solvothermal synthesis approach, providing a novel route for the fabrication of UTSA -16-loaded monoliths, which demonstrate both high MOF loading and mechanical integrity that could be readily applied to various CO2 capture applications.
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Novel Zeolite-5A@MOF-74 Composite Adsorbents with Core-Shell Structure for H2 Purification.
TL;DR: Overall, the findings of this study suggest that the zeolite-5A@MOF-74 composites with core-shell structure are promising candidates for industrial H2 purification processes.
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MOF-GO Hybrid Nanocomposite Adsorbents for Methane Storage
TL;DR: In this article, the storage of methane in nanocomposite adsorbents comprising metal-organic framework (MOF) and graphene oxide (GO) was investigated, and three different sets of MOF-GO nan-ocomposites co...
Journal ArticleDOI
The Effects of Cell Density and Intrinsic Porosity on Structural Properties and Adsorption Kinetics in 3D-Printed Zeolite Monoliths
TL;DR: In this article, the performance of 3D-printed zeolite monoliths for CO2/N2 separation at 5bar 25°C was evaluated and the effects of cell density, wall porosity, and inlet gas velocity on their separation performance were investigated.