M
Michael J. Katz
Researcher at Memorial University of Newfoundland
Publications - 73
Citations - 6413
Michael J. Katz is an academic researcher from Memorial University of Newfoundland. The author has contributed to research in topics: Adsorption & Coordination polymer. The author has an hindex of 29, co-authored 64 publications receiving 5228 citations. Previous affiliations of Michael J. Katz include University of Maine & Saint Mary's University.
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Journal ArticleDOI
A facile synthesis of UiO-66, UiO-67 and their derivatives
Michael J. Katz,Zachary J. Brown,Yamil J. Colón,Paul W. Siu,Karl A. Scheidt,Randall Q. Snurr,Joseph T. Hupp,Omar K. Farha +7 more
TL;DR: A scalable, reproducible method of synthesizing UiO-66- and Ui O-67-type MOFs, entailing the addition of HCl to the reaction mixture, has been investigated.
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Destruction of chemical warfare agents using metal–organic frameworks
Joseph E. Mondloch,Michael J. Katz,William C. Isley,Pritha Ghosh,Peilin Liao,Wojciech Bury,George W. Wagner,Morgan G. Hall,Jared B. DeCoste,Gregory W. Peterson,Randall Q. Snurr,Christopher J. Cramer,Joseph T. Hupp,Omar K. Farha +13 more
TL;DR: A carefully chosen metal-organic framework (MOF) material featuring high porosity and exceptional chemical stability that is extraordinarily effective for the degradation of nerve agents and their simulants is reported.
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Simple and Compelling Biomimetic Metal–Organic Framework Catalyst for the Degradation of Nerve Agent Simulants
Michael J. Katz,Joseph E. Mondloch,Ryan K. Totten,Jin Kuen Park,SonBinh T. Nguyen,Omar K. Farha,Joseph T. Hupp +6 more
TL;DR: The combination of the strong Lewis-acidic Zr(IV) and bridging hydroxide anions led to ultrafast half-lives for these solvolysis reactions, especially remarkable considering that the actual catalyst loading was a mere 0.045 % as a result of the surface-only catalysis observed.
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The use of aurophilic and other metal–metal interactions as crystal engineering design elements to increase structural dimensionality
TL;DR: This tutorial review will explore the methods by which gold(I) and other d10 and d8 metal centres have been employed to increase structural dimensionality via the formation of metal-metal interactions.
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High Efficiency Adsorption and Removal of Selenate and Selenite from Water Using Metal–Organic Frameworks
Ashlee J. Howarth,Michael J. Katz,Timothy C. Wang,Ana E. Platero-Prats,Karena W. Chapman,Joseph T. Hupp,Omar K. Farha,Omar K. Farha +7 more
TL;DR: The mechanism of selenate and selenite adsorption on N U-1000 is explored to determine the important features that make NU-1000 a superior adsorbent for this application.