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W3159037551 endingPage "2023" @default.
W3159037551 startingPage "2017" @default.
W3159037551 abstract "Porous electrical conductors offer opportunities for next-generation energy storage solutions and electrocatalytic technologies. Metal–organic frameworks are one of the highest porosity scaffolds but typically feature low electrical conductivity due to their highly ionic metal–ligand interface. In this paper, we use computational approaches to study the inclusion of ligating pillars in a known electrically conductive framework, Ni3(hexaiminobenzene)2. We hypothesize that because Ni3(hexaiminobenzene)2 is an in-plane conductor, retrofitting this material may yield a 3D-connected network with metallicity in all crystallographic directions. However, we find that while this strategy likely yields unstable connectivity for the Ni2+ system, the use of either Cr2+ or Fe2+ provides a unique avenue to form 3D-connected conductors. The study further highlights the critical role of the metal dz2 orbitals in creating conductive metal–organic frameworks." @default.
W3159037551 created "2021-05-10" @default.
W3159037551 creator A5010225069 @default.
W3159037551 creator A5042479412 @default.
W3159037551 creator A5080462756 @default.
W3159037551 date "2021-04-29" @default.
W3159037551 modified "2023-10-16" @default.
W3159037551 title "Electronic Challenges of Retrofitting 2D Electrically Conductive MOFs to Form 3D Conductive Lattices" @default.
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W3159037551 doi "https://doi.org/10.1021/acsaelm.0c01135" @default.
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