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- Publications
- Influence
Anisotropic mechanical properties of polymorphic hybrid inorganic―organic framework materials with different dimensionalities
- J. Tan, C. Merrill, J. B. Orton, A. Cheetham
- Materials Science
- 1 July 2009
Abstract Hybrid inorganic–organic framework materials have recently developed into an important new class of solid-state materials. Their mechanical properties are as yet unexplored, although they… Expand
Probing the mechanical properties of hybrid inorganic-organic frameworks: a computational and experimental study.
- M. Kosa, Jin-Chong Tan, C. Merrill, M. Krack, A. Cheetham, M. Parrinello
- Chemistry, Medicine
- Chemphyschem : a European journal of chemical…
- 2 August 2010
Hybrid framework materials are modular compounds consisting of metal ions and organic linkers, variation of which has given rise to a myriad of structures with technologically relevant properties. To… Expand
Pillared layered structures based upon M(III) ethylene diphosphonates: the synthesis and crystal structures of M(III)(H(2)O)(HO(3)P(CH(2))(2)PO(3)) (M = Fe, Al, Ga).
- C. Merrill, A. Cheetham
- Chemistry, Medicine
- Inorganic chemistry
- 25 July 2005
A three-dimensional iron(III) diphosphonate, Fe(III)(H(2)O)(HO(3)P(CH(2))(2)PO(3)), I, has been synthesized hydrothermally and characterized by single-crystal X-ray diffraction. The compound… Expand
Inorganic-organic framework structures; M(II) ethylenediphosphonates (M = Co, Ni, Mn) and a Mn(II) ethylenediphosphonato-phenanthroline.
- C. Merrill, A. Cheetham
- Chemistry, Medicine
- Inorganic chemistry
- 8 January 2007
The reaction of nickel, cobalt, and manganese with 1,2-ethylenediphosphonic acid or 1,2-ethylenediphosphonic acid and 1,10-phenanthroline under hydrothermal conditions resulted in the pillared… Expand
Cover Picture: Probing the Mechanical Properties of Hybrid Inorganic–Organic Frameworks: A Computational and Experimental Study (ChemPhysChem 11/2010)
- M. Kosa, Jin-Chong Tan, C. Merrill, M. Krack, A. Cheetham, M. Parrinello
- Materials Science
- 2 August 2010
Reconstruction strategies for structure solution using precession electron diffraction data from hybrid inorganic-organic framework materials
- E. G. Bithell, C. Merrill, C. Merrill, P. Midgley
- Materials Science
- 1 July 2010
Precession electron diffraction has received significant recent attention, and has the potential to complement x-ray structure solution methods in situations where the latter are difficult to apply.… Expand
Joint hypermobility in young children: Exploring associations with behavioral profiles
- C. Merrill
- Psychology
- 2017
Precession electron diffraction: application to organic crystals and hybrid inorganic-organic materials
- E. G. Bithell, M. Eddleston, C. Merrill, C. Merrill, William Jones, P. Midgley
- Materials Science
- 2008
It is now accepted that precession electron diffraction (PED) [1, 2] has a significant contribution to make to the nanoscale characterisation of materials. In this presentation we explore the extent… Expand