E
Edmund J. Cussen
Researcher at University of Strathclyde
Publications - 101
Citations - 5131
Edmund J. Cussen is an academic researcher from University of Strathclyde. The author has contributed to research in topics: Neutron diffraction & Perovskite (structure). The author has an hindex of 29, co-authored 91 publications receiving 4747 citations. Previous affiliations of Edmund J. Cussen include University of Nottingham & University of Sheffield.
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Design, Chirality, and Flexibility in Nanoporous Molecule-Based Materials
TL;DR: This Account details the work on directing the assembly of open-framework structures based on molecules and investigating how the response of nanoporous examples of such materials to guests differs from classical rigid porous systems.
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Permanent microporosity and enantioselective sorption in a chiral open framework.
TL;DR: Chiral permanent porosity is established by directional noncovalent interactions between framework-forming and nonframework forming components of the stable second-generation material, which become stronger upon loss of the guests from the pore system.
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Adsorption dynamics of gases and vapors on the nanoporous metal organic framework material Ni2(4,4'-bipyridine)3(NO3)4: guest modification of host sorption behavior.
Ashleigh J. Fletcher,Edmund J. Cussen,T.J. Prior,Matthew J. Rosseinsky,Cameron J. Kepert,K.M. Thomas +5 more
TL;DR: The paper contains the first evidence of specific interactions between guests and functional groups leading to structural change in flexible porous coordination polymer frameworks.
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Flexible sorption and transformation behavior in a microporous metal-organic framework.
TL;DR: Single-crystal X-ray diffraction experiments show that the ladder structure of the framework is maintained after desolvation of the material, resulting in the production of a porous solid stable to 215(4) degrees C.
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The Hydride Anion in an Extended Transition Metal Oxide Array: LaSrCoO3H0.7
Michael A. Hayward,Edmund J. Cussen,John B. Claridge,M. Bieringer,Matthew J. Rosseinsky,Christopher J. Kiely,Stephen J. Blundell,I. M. Marshall,Francis L. Pratt +8 more
TL;DR: The synthesis and structural characterization of a transition metal oxide hydride, LaSrCoO3H0.7, which adopts an unprecedented structure in which oxide chains are bridged by hydrides to form a two-dimensional extended network to allow the prediction of a new class of transition metal–containing electronic and magnetic materials.