279 research outputs found
Magnetic structure and spin-wave excitations in the multiferroic magnetic metal-organic framework (CD3)(2)ND2[Mn(DCO2)(3)]
The authors thank STFC for the award of beam time at ISIS
Neutron and Muon Source. A.E.P. is grateful to EPSRC for
funding (EP/L024977/1
Local structure of the metal-organic perovskite dimethylammonium manganese(II) formate
We thank the EPSRC for provision of the MidPlus high-performance computing system on which the calculations were performed (EP/K000233/1, EP/K000128/1) and for support to AEP (EP/L024977/1) and STFC for access to the ISIS Neutron and Muon Source for beamtime (RB1210310)
Phase behaviour in the LiBH4-LiBr system and structure of the anion-stabilised fast ionic, high temperature phase
The fast ionic, high temperature (HT) phase of LiBH4 can be stabilised by Br¯ substitution. Lithium borohydride bromide compounds, Li(BH4)1-xBrx have been synthesized mechanochemically, with and without thermal treatment and the resulting phase behaviour determined as a function of composition. Single phase materials exist for 0.29 ≤ x ≤ 0.50 with conductivity two orders of magnitude higher than LiBH4 at 313 K. Powder neutron diffraction has been used to resolve the details of the crystal structure of one such compound. These demonstrate that 7Li(11BD4)2/3Br1/3 retains the HT structure (hexagonal space group P63mc, a ≈ 4.2 Å, c ≈ 6.7 Å) from 293-573 K. The borohydride bromide exhibits considerable static and dynamic disorder, the latter invoking complex rotational motion of the (BH4)¯ anions
Molecular dissection of the domain architecture and catalytic activities of human PrimPol
PrimPol is a primase–polymerase involved in nuclear and mitochondrial DNA replication in eukaryotic cells. Although PrimPol is predicted to possess an archaeo-eukaryotic primase and a UL52-like zinc finger domain, the role of these domains has not been established. Here, we report that the proposed zinc finger domain of human PrimPol binds zinc ions and is essential for maintaining primase activity. Although apparently dispensable for its polymerase activity, the zinc finger also regulates the processivity and fidelity of PrimPol's extension activities. When the zinc finger is disrupted, PrimPol becomes more promutagenic, has an altered translesion synthesis spectrum and is capable of faithfully bypassing cyclobutane pyrimidine dimer photolesions. PrimPol's polymerase domain binds to both single- and double-stranded DNA, whilst the zinc finger domain binds only to single-stranded DNA. We additionally report that although PrimPol's primase activity is required to restore wild-type replication fork rates in irradiated PrimPol−/− cells, polymerase activity is sufficient to maintain regular replisome progression in unperturbed cells. Together, these findings provide the first analysis of the molecular architecture of PrimPol, describing the activities associated with, and interplay between, its functional domains and defining the requirement for its primase and polymerase activities during nuclear DNA replication
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Synthesis and Properties of a Compositional Series of MIL-53(Al) Metal-Organic Framework Crystal-Glass Composites
Metal-organic framework crystal-glass composites (MOF-CGCs) are materials in which a crystalline MOF is dispersed within a MOF glass. In this work, we explore the room temperature stabilization of the open-pore form of MIL-53(Al), usually observed at high-temperature, which occurs upon encapsulation within a ZIF-62(Zn) MOF glass matrix. A series of MOF-CGCs containing different loadings of MIL-53(Al) were synthesized and characterized using X-ray diffraction and nuclear magnetic resonance spectroscopy. An upper limit of MIL-53(Al) that can be stabilized in the composite was determined for the first time. The nanostructure of the composites was probed using pair distribution function analysis and scanning transmission electron microscopy. Notably, the distribution and integrity of the crystalline compo-nent in a sample series was determined, and these findings related to the MOF-CGC gas adsorption capacity in order to identify the optimal loading necessary for maximum CO2 sorption capacity.TDB would like to thank both the Royal Society for a University Research Fellowship (UF150021) and the Royal Society for a Research Grant (RG94426). CWA would like to thank the Royal Society for a PhD studentship (RG160498), and the Commonwealth Scientific and Industrial Research Council for additional support (C2017/3108). Both JH and TDB gratefully acknowledge the EPSRC (EP/R015481/1). AFS acknowledges EPSRC for a studentship award under the Doctoral Training Programme. AMB acknowledges the Royal Society for funding (RGF\EA\180092), as well as the Cambridge Trust for a Vice Chancellor’s Award (304253100). We extend our gratitude to Diamond Light Source, Rutherford Appleton Laboratory, UK, for access to Beamline I15-1 (EE20038-1) and access and support in the use of the electron Physical Science Imaging Centre (EM20195). SMC acknowledges the Henslow Research Fellowship at Girton College, Cambridge. PAM thanks the EPSRC for financial support under grant number EP/R025517/1
The Charles Lamb Bulletin 175 (Summer) 2022
The Summer Edition of the Charles and Mary Lamb Journal, The Charles Lamb Bulletin. There are articles by: Duncan Wu (Georgetown University); David Stewart (Northumbria University); Judith Thompson (Dalhousie University); Clay Daniel (University of Texas, Rio Grande Valley) and Valerie Purton (ARU). Reviews by: Paul Keen (Carleton University); Christopher Butcher (London); Sarah Burton; Crystal Biggin (University of Leicester); and Chloe Chard
Metal-organic framework crystal-glass composites.
The majority of research into metal-organic frameworks (MOFs) focuses on their crystalline nature. Recent research has revealed solid-liquid transitions within the family, which we use here to create a class of functional, stable and porous composite materials. Described herein is the design, synthesis, and characterisation of MOF crystal-glass composites, formed by dispersing crystalline MOFs within a MOF-glass matrix. The coordinative bonding and chemical structure of a MIL-53 crystalline phase are preserved within the ZIF-62 glass matrix. Whilst separated phases, the interfacial interactions between the closely contacted microdomains improve the mechanical properties of the composite glass. More significantly, the high temperature open pore phase of MIL-53, which spontaneously transforms to a narrow pore upon cooling in the presence of water, is stabilised at room temperature in the crystal-glass composite. This leads to a significant improvement of CO2 adsorption capacity
A Candidate Gene Association Study of Bone Mineral Density in an Iranian Population
The genetic epidemiology of variation in bone mineral density (BMD) and osteoporosis is not well studied in Iranian populations and needs more research. We report a candidate gene association study of BMD variation in a healthy cross-sectional study of 501 males and females sampled from the Iranian Multi-Centre Osteoporosis Study, Shiraz, Iran. We selected to study the association with 21 single nucleotide polymorphisms (SNPs) located in the 7 candidate genes LRP5, RANK, RANKL, OPG, P2RX7, VDR, and ESR1. BMD was measured at the three sites L2–L4, neck of femur, and total hip. Association between BMD and each SNP was assessed using multiple linear regression assuming an allele dose (additive effect) on BMD (adjusted for age and sex). Statistically signiicant (at the unadjusted 5% level) associations were seen with seven SNPs in ive of the candidate genes. Two SNPs showed statistically signiicant association with more than one BMD site. Signiicant association was seen between BMD at all the three sites with the VDR SNP rs731246 (L2–L4 p = 0.038; neck of femur p = 0.001; and total hip p = 0.045)
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Mixed hierarchical local structure in a disordered metal–organic framework
Abstract: Amorphous metal–organic frameworks (MOFs) are an emerging class of materials. However, their structural characterisation represents a significant challenge. Fe-BTC, and the commercial equivalent Basolite® F300, are MOFs with incredibly diverse catalytic ability, yet their disordered structures remain poorly understood. Here, we use advanced electron microscopy to identify a nanocomposite structure of Fe-BTC where nanocrystalline domains are embedded within an amorphous matrix, whilst synchrotron total scattering measurements reveal the extent of local atomic order within Fe-BTC. We use a polymerisation-based algorithm to generate an atomistic structure for Fe-BTC, the first example of this methodology applied to the amorphous MOF field outside the well-studied zeolitic imidazolate framework family. This demonstrates the applicability of this computational approach towards the modelling of other amorphous MOF systems with potential generality towards all MOF chemistries and connectivities. We find that the structures of Fe-BTC and Basolite® F300 can be represented by models containing a mixture of short- and medium-range order with a greater proportion of medium-range order in Basolite® F300 than in Fe-BTC. We conclude by discussing how our approach may allow for high-throughput computational discovery of functional, amorphous MOFs
Organizational Ambidexterity and the Hybrid Middle Manager: The Case of Patient Safety in UK Hospitals
This article focuses on knowledge management in UK hospitals as an area in which organizational ambidexterity (OA) is a necessary condition. In contrast to much of the literature on OA that looks at senior managers, we focus on the role of "hybrid" middle managers, professional workers who hold managerial responsibilities, in ensuring that the quality of care delivered is at an optimum "safe" level for patients. We examine the influence of prevailing tensions and competing agendas characteristic of a professionalized, public-sector context upon knowledge exploitation and exploration at the middle levels of the organization. Our study investigates how these tensions are experienced and reconciled at the individual level. We examine the contextual and personal circumstances that enable hybrid middle managers to forge workable compromises between exploration and exploitation to facilitate OA. We find that this process is contingent on professional legitimacy, social capital, and a holistic professional orientation. This has wider implications for human resource practice to support the discretion and motivation of hybrid middle managers to facilitate OA for enduring performance and advancement of best practice
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