P
Paul M. Forster
Researcher at University of Nevada, Las Vegas
Publications - 99
Citations - 4584
Paul M. Forster is an academic researcher from University of Nevada, Las Vegas. The author has contributed to research in topics: Nanoporous & Adsorption. The author has an hindex of 29, co-authored 98 publications receiving 4340 citations. Previous affiliations of Paul M. Forster include Stony Brook University & University of California.
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Zeolite-like Metal−Organic Frameworks (ZMOFs) as Hydrogen Storage Platform: Lithium and Magnesium Ion-Exchange and H2-(rho-ZMOF) Interaction Studies
TL;DR: It is found that the enhanced binding of molecular hydrogen in ion-exchanged ZMOFs with an anionic framework is largely governed by the presence of the electrostatic field in the cavity, which is reflected by isosteric heats of adsorption in these compounds which are greater by as much as 50% relative to those in neutral MOFs.
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The role of temperature in the synthesis of hybrid inorganic-organic materials : the example of cobalt succinates
TL;DR: In this article, five different cobalt succinate materials synthesized from an identical starting mixture using temperature as the only independent variable show increasing condensation and density at higher synthesis temperatures.
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Enhancing H2 Uptake by “Close‐Packing” Alignment of Open Copper Sites in Metal–Organic Frameworks
Xi-Sen Wang,Shengqian Ma,Paul M. Forster,Daqiang Yuan,Juergen Eckert,Joseph J. López,Brandon J. Murphy,John B. Parise,Hong-Cai Zhou +8 more
TL;DR: Two MOF polymorphs were made, one exhibiting a record high hydrogen uptake and one inspired by close-packing of spheres, to strengthen the framework-H{sub 2} interaction in MOFs.
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Nickel(II) Phosphate VSB‐5: A Magnetic Nanoporous Hydrogenation Catalyst with 24‐Ring Tunnels
Nathalie Guillou,Qiuming Gao,Paul M. Forster,Jong-San Chang,Marc Nogues,Sang-Eon Park,Gerard Ferey,Anthony K. Cheetham +7 more
TL;DR: Nanoporosity, good thermal stability, antiferromagnetic ordering, and hydrogenation with basic catalytic character are four important properties of the large-pore (24MR), zeolitic nickel(II) phosphate, VSB-5, which has been prepared under alkaline hydrothermal conditions.