Your search keyword '"Powell AK"' showing total 21 results

1. Detection of β-D-glucuronidase activity in environmental samples using 4-fluorophenyl β-D-glucuronide and 19 F NMR.

Author

Teriosina A, Barsukov IL, Cartmell A, Powell AK, Stachulski AV, and Yates EA

Subjects

Fluorine chemistry, Environmental Monitoring methods, Glucuronidase metabolism, Glucuronidase chemistry, Glucuronides metabolism, Glucuronides analysis, Glucuronides chemistry, Magnetic Resonance Spectroscopy methods

Abstract

Common methods for establishing the presence of enteric bacteria polluting water supplies, or in other samples, rely on detecting the hydrolysis of model glucuronide substrates by glucuronidases to release a phenolic product quantifiable by absorbance or fluorescence. Substrates include the β-D-glucuronides of p -nitrophenol, and umbelliferyl or quercetin derivatives. One limitation is that it may be difficult or impossible to quantify the released phenolic moiety in samples that are strongly coloured or, that contain fluorescent compounds. Exploiting the sensitivity available from the 19 F nucleus to changes in chemical environment which can be detected by 19 F NMR spectroscopy, and the almost complete absence of 19 F from naturally-occurring samples containing organic matter, which provides background-free signals, we propose a model substrate; 4-fluorophenyl β-D-glucuronide (4FP-glucuronide). The 19 F NMR chemical shift position of 4FP-glucuronide changes from -121.0 ppm upon hydrolysis to release 4-fluorophenol, at -124.9 ppm (at pH 6.8), enabling detection of β-glucuronidase activity. We illustrate the use of this substrate with environmental samples from forest soil, standing water, and mud from cattle pasture. Each of these would challenge conventional methods, owing to their opacity or the presence of coloured organic material. The technique enables detection of glucuronidases, a widely-used proxy for enteric bacteria, extending the scope of testing beyond water to include environmental and other challenging samples.

Published

2025

2. Spermine Enhances the Peroxidase Activities of Multimeric Antiparallel G-quadruplex DNAzymes.

Author

Adeoye RI, Ralebitso-Senior TK, Boddis A, Reid AJ, Giuntini F, Fatokun AA, Powell AK, Ihekwaba-Ndibe A, Malomo SO, and Olorunniji FJ

Subjects

Biosensing Techniques, Peroxidase chemistry, Catalysis, Humans, DNA, Catalytic chemistry, G-Quadruplexes, Spermine

Abstract

G-quadruplex (G4) DNAzymes with peroxidase activities hold potential for applications in biosensing. While these nanozymes are easy to assemble, they are not as efficient as natural peroxidase enzymes. Several approaches are being used to better understand the structural basis of their reaction mechanisms, with a view to designing constructs with improved catalytic activities. Spermine alters the structures and enhances the activities of some G4 DNAzymes. The reported effect of spermine in shifting the conformation of some G4 DNAzymes from antiparallel to parallel has not been tested on multimeric G4 DNAzymes. In this study, we examined the effects of spermine on the catalytic activities of multivalent constructs of Bcl2, c-MYC, PS2.M, and PS5.M. Our findings show that spermine significantly improved the peroxidase activity of PS2.M, an antiparallel G4 DNAzyme, while there was no significant effect on c-MYC, which already exists in a parallel conformation. The addition of spermine led to a substantial increase in the initial velocity of PS2.M and its multimeric form, enhancing it by approximately twofold. Therefore, spermine enhancement offers promise in expanding the range of DNAzymes available for use as biosensing tools.

Published

2025

3. Single-Molecule Magnet Behavior and Spin Structure of an Fe III 7 Cartwheel Cluster Revealed by Sub-Kelvin Magnetometry and Mössbauer Spectroscopy: The Final Pieces of the Puzzle.

Author

Bartolomé J, Bartolomé E, Luis F, Burzurí E, Camón A, Filoti G, Ako AM, Braun J, Mereacre V, Anson CE, and Powell AK

Abstract

The spin frustration and other magnetic properties of the "cartwheel" heptanuclear cluster [Fe III 7 O 3 (O 2 C t Bu) 9 (Me-dea) 3 (H 2 O) 3 ] (Me-deaH 2 = N -methyldiethanolamine) have been previously investigated; we present here a Mössbauer spectroscopic study and sub-Kelvin magnetization and ac susceptibility measurements which enable a complete magnetic picture of this frustrated cluster. 57 Fe Mössbauer spectra above 150 K showed three doublets in a 1:3:3 ratio, which could be assigned by their respective quadrupole splittings to the central Fe(1) and the peripheral Fe(2) and Fe(3). The field dependence of the corresponding magnetic sextets at 3 K showed that the spins on the central Fe(1) and the three peripheral Fe(2) sites with O 5 N coordination are oriented mutually coparallel, while these are antiparallel to the spins on the peripheral Fe(3) sites with O 6 coordination, resulting in an overall S = 5/2 ground state. This provides experimental confirmation of the previously proposed spin ground state structure. Upon cooling to sub-Kelvin temperatures, a crossover to spin blocking with T B ≈ 0.21 K could be observed. This single-molecule magnet behavior had been expected but had not been observable with a conventional SQUID. The anisotropy barrier, of 3-fold symmetry, can be described in terms of the parameter D / k B = -0.47 K and a fourth-order perturbation; the latter enables thermally activated quantum tunneling through the excited sublevel m z = ± 3/2, with an activation barrier of U / k B = 1.9 K.

Published

2024

4. Synthetic β-d-Glucuronides: Substrates for Exploring Glucuronide Degradation by Human Gut Bacteria.

Author

Gorecka A, Schacht H, Fraser MK, Teriosina A, London JA, Barsukov IL, Powell AK, Cartmell A, Stachulski AV, and Yates EA

Abstract

The human gut microbiota (HGM) is a complex ecosystem subtly dependent on the interplay between hundreds of bacterial species and numerous metabolites. Dietary phenols, whether ingested (e.g., plant-derived guaiacol, mequinol, or resveratrol) or products of bacterial fermentation (e.g., p -cresol), have been attributed with influencing bacterial growth and host health. They are cleared by phase II metabolism, one form utilizing β-d-glucuronidation, but encounter bacterially derived glucuronidases capable of hydrolyzing them to release their phenolic and glucuronic acid moieties with potential effects on host cells or the surrounding bacterial population. Tools to enable the detailed study of their activity are currently lacking. Syntheses of β-d-glucuronides from methyl 1,2,3,4 tetra-acetyl β-d-glucopyranosyluronate by direct glycosylation with 2-, 3-, or 4-methoxy- and 4-fluorophenol acceptors employing trimethylsilyl triflate catalysis are reported. Yields (methoxy series) were modest. An improved route from methyl 1,2,3,4-tetra-acetyl β-d-glucopyranosyluronate via selective anomeric deprotection ( N -methyl piperazine) and conversion to an α-trichloroacetimidate glycosyl donor was employed. Coupling with 2- and 3-methoxyphenol acceptors and deprotection provided 2- and 3-methoxyphenyl β-d-glucuronides in 2-fold improved overall yield. These naturally occurring methoxyphenyl glucuronides augment available model substrates of dietary glucuronides, which include 3- and 4'-linked resveratrol. The use of model glucuronides as substrates was illustrated in studies of β-d-glucuronidase activity employing cell lysates of 9 species of HGM ( Bacteroidetes ), revealing distinct outcomes. Contrasting effects on bacterial growth were also observed between the free phenolic components, their respective glucuronides, and glucuronic acid. The glucuronide of 4-fluorophenol provided sensitive and background-free detection of β-glucuronidase activity using 19 F NMR., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

5. Self-Assembly of four Ni 16 Molecular Wheels with Capsule and Tubular Supramolecular Architectures.

Author

Dais TN, Schlittenhardt S, Ruben M, Anson CE, Powell AK, and Plieger PG

Abstract

Four new Ni 16 molecular wheels with the general formula [L 4 Ni 16 (RCOO) 16 (H 2 O) x (MeOH) 12-x ] (where H 4 L=1,4-bis((E)-((2'-hydroxybenzyl)imino)methyl)-2,3-naphthalenediol, and R=H or Me) have been isolated and structurally characterised. Complexes C1-C3 (R=Me) were formed using nickel (II) acetate and presented as polymorphs with the same formulation of charged components. The same wheel-like architecture was observed in C4 (R=H), which was prepared using nickel (II) formate, demonstrating the potential for further versatility of the system. In contrast to similar four-fold symmetric Ni(II) wheel clusters, measurements of the static magnetic properties of C1 indicated the presence of dominant antiferromagnetic interactions and an S=0 ground state., (© 2024 The Author(s). Chemistry - An Asian Journal published by Wiley-VCH GmbH.)

Published

2024

6. Longitudinal and Transverse 1 H Nuclear Magnetic Resonance Relaxivities of Lanthanide Ions in Aqueous Solution up to 1.4 GHz/33 T.

Author

Nasser Din R, Venu AC, Rudszuck T, Vallet A, Favier A, Powell AK, Guthausen G, Ibrahim M, and Krämer S

Abstract

The longitudinal and transverse nuclear magnetic resonance relaxivity dispersion (NMRD) of 1 H in water induced by the paramagnetic relaxation enhancement (PRE) of dissolved lanthanide ions (Ln 3+ ) can become very strong. Longitudinal and transverse 1 H NMRD for Gd 3+ , Dy 3+ , Er 3+ and Ho 3+ were measured from 20 MHz/0.47 T to 1382 MHz/32.5 T, which extended previous studies by a factor of more than two in the frequency range. For the NMRD above 800 MHz, we used a resistive magnet, which exhibits reduced field homogeneity and stability in comparison to superconducting and permanent NMR magnets. These drawbacks were addressed by dedicated NMRD methods. In a comparison of NMRD measurements between 800 MHz and 950 MHz performed in both superconducting and resistive magnets, it was found that the longitudinal relaxivities were almost identical. However, the magnetic field fluctuations of the resistive magnet strongly perturbed the transverse relaxation. The longitudinal NMRDs are consistent with previous work up to 600 MHz. The transverse NMRD nearly scales with the longitudinal one with a factor close to one. The data can be interpreted within a PRE model that comprises the dipolar hyperfine interactions between the 1 H and the paramagnetic ions, as well as a Curie spin contribution that is dominant at high magnetic fields for Dy 3+ , Er 3+ and Ho 3+ . Our findings provide a solid methodological basis and valuable quantitative insights for future high-frequency NMRD studies, enhancing the measurement accuracy and applicability of PRE models for paramagnetic ions in aqueous solutions.

Published

2024

7. Dinuclear Dysprosium Compounds: The Importance of Rigid Bridges.

Author

Pfleger RF, Briganti M, Bonde N, Ollivier J, Braun J, Bergfeldt T, Piligkos S, Ruppert T, Anson CE, Perfetti M, Bendix J, and Powell AK

Abstract

We report the synthesis, structures and magnetic behaviour of two isostructural dinuclear Dy 3+ complexes where the metal ions of a previously reported monomeric building block are connected by a peroxide (O 2 2- ) or a pair of fluoride (2×F - ) bridges. The nature of the bridge determines the distance between the metal ion dipoles leading to a dipolar coupling in the peroxido bridged compound of only ca. 70 % of that in the bis-fluorido bridged dimer. The sign of the overall coupling between the metals is antiferromagnetic for the peroxido bridged compound and ferromagnetic for the bis-fluorido bridged complex. This in turn influences the magnetisation dynamics. We compare the relaxation characteristics of the dimers with those of the previously reported monomeric building block. The relaxation dynamics for the bis-fluorido system are very fast. On the other hand, comparing the properties of the monomer, the peroxido bridged sample and the corresponding Y-doped sample show that the relaxation properties via a Raman process have very similar parameters. We show that a second dysprosium is important for either tuning or detuning the Single Molecule Magnet (SMM) properties of a system., (© 2024 The Author(s). Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2024

8. Assessment of NanoString technology as a tool for profiling circulating miRNA in maternal blood during pregnancy.

Author

Adamova P, Powell AK, and Dykes IM

Abstract

Aim: Circulating maternal MicroRNA (miRNA) is a promising source of biomarkers for antenatal diagnostics. NanoString nCounter is a popular global screening tool due to its simplicity and ease of use, but there is a lack of standardisation in analysis methods. We examined the effect of user-defined variables upon reported changes in maternal blood miRNA during pregnancy., Methods: Total RNA was prepared from the maternal blood of pregnant and control rats. miRNA expression was profiled using Nanostring nCounter. Raw count data were processed using nSolver using different combinations of normalisation and background correction methods as well as various background thresholds. A panel of 14 candidates in which changes were supported by multiple analysis workflows was selected for validation by RT-qPCR. We then reverse-engineered the nSolver analysis to gain further insight., Results: Thirty-one putative differentially expressed miRNAs were identified by nSolver. However, each analysis workflow produced a different set of reported biomarkers and none of them was common to all analysis methods. Four miRNAs with known roles in pregnancy (miR-183, miR-196c, miR-431, miR-450a) were validated. No single nSolver analysis workflow could successfully identify all four validated changes. Reverse engineering revealed errors in nSolver data processing which compound the inherent problems associated with background correction and normalisation., Conclusion: Our results suggest that user-defined variables greatly influence the output of the assay. This highlights the need for standardised nSolver data analysis methods and detailed reporting of these methods. We suggest that investigators in the future should not rely on a single analysis method to identify changes and should always validate screening results., Competing Interests: All authors declared that there are no conflicts of interest., (© The Author(s) 2024.)

Published

2024

9. Gaining Insights into the Interplay between Optical and Magnetic Properties in Photoexcited Coordination Compounds.

Author

Braun J, Powell AK, and Unterreiner AN

Abstract

We describe early and recent advances in the fascinating field of combined magnetic and optical properties of inorganic coordination compounds and in particular of 3d-4f single molecule magnets. We cover various applied techniques which allow for the correlation of results obtained in the frequency and time domain in order to highlight the specific properties of these compounds and the future challenges towards multidimensional spectroscopic tools. An important point is to understand the details of the interplay of magnetic and optical properties through performing time-resolved studies in the presence of external fields especially magnetic ones. This will enable further exploration of this fundamental interactions i. e. the two components of electromagnetic radiation influencing optical properties., (© 2024 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2024

10. A nested spin structure and single molecule magnet behaviour in an Fe 8 Dy 12 heterometallic cyclic coordination cluster.

Author

Peng Y, Braun J, Schulze M, Kaemmerer H, Schneider YF, Anson CE, Wernsdorfer W, and Powell AK

Abstract

The 20-nuclearity compound [Fe 8 Dy 12 (tea) 8 (teaH) 12 (NO 3 ) 12 ]·8MeCN (where teaH 3 = triethanolamine) was synthesised and characterised through single crystal X-ray diffraction and magnetic measurements. The shape of the magnetic hysteresis in the microSQUID measurements was rationalised using the MAGELLAN program.

Published

2024

11. Patterned immobilization of polyoxometalate-loaded mesoporous silica particles via amine-ene Michael additions on alkene functionalized surfaces.

Author

Yang B, Picchetti P, Wang Y, Wang W, Seeger C, Bozov K, Malik S, Mallach D, Schäfer AH, Ibrahim M, Hirtz M, and Powell AK

Abstract

Polyoxometalates (POM) are anionic oxoclusters of early transition metals that are of great interest for a variety of applications, including the development of sensors and catalysts. A crucial step in the use of POM in functional materials is the production of composites that can be further processed into complex materials, e.g. by printing on different substrates. In this work, we present an immobilization approach for POMs that involves two key processes: first, the stable encapsulation of POMs in the pores of mesoporous silica nanoparticles (MSPs) and, second, the formation of microstructured arrays with these POM-loaded nanoparticles. Specifically, we have developed a strategy that leads to water-stable, POM-loaded mesoporous silica that can be covalently linked to alkene-bearing surfaces by amine-Michael addition and patterned into microarrays by scanning probe lithography (SPL). The immobilization strategy presented facilitates the printing of hybrid POM-loaded nanomaterials onto different surfaces and provides a versatile method for the fabrication of POM-based composites. Importantly, POM-loaded MSPs are useful in applications such as microfluidic systems and sensors that require frequent washing. Overall, this method is a promising way to produce surface-printed POM arrays that can be used for a wide range of applications., (© 2024. The Author(s).)

Published

2024

12. An Effectively Uncoupled Gd 8 Cluster Formed through Fixation of Atmospheric CO 2 Showing Excellent Magnetocaloric Properties.

Author

Braun J, Seufert D, Anson CE, Tang J, and Powell AK

Subjects

Ions, Carbon Dioxide, Oxygen

Abstract

The [Gd 8 (opch) 8 (CO 3 ) 4 (H 2 O) 8 ]·4H 2 O·10MeCN coordination cluster ( 1 ) crystallises in P1¯. The Gd 8 core is held together by four bridging carbonates derived from atmospheric CO 2 as well as the carboxyhydrazonyl oxygens of the 2-hydroxy-3-methoxybenzylidenepyrazine-2-carbohydrazide (H 2 opch) Schiff base ligands. The magnetic measurements show that the Gd III ions are effectively uncoupled as seen from the low Weiss constant of 0.05 K needed to fit the inverse susceptibility to the Curie-Weiss law. Furthermore, the magnetisation data are consistent with the Brillouin function for eight independent Gd III ions. These features lead to a magnetocaloric effect with a high efficiency which is 89% of the theoretical maximum value.

Published

2023

13. LnDOTA puppeteering: removing the water molecule and imposing tetragonal symmetry.

Author

Manvell AS, Pfleger R, Bonde NA, Briganti M, Mattei CA, Nannestad TB, Weihe H, Powell AK, Ollivier J, Bendix J, and Perfetti M

Abstract

Complexes of lanthanide(iii) ions (Ln) with tetraazacyclododecane- N , N ', N '', N '''-tetraacetate (DOTA) are a benchmark in the field of magnetism due to their well-investigated and sometimes surprising features. Ab initio calculations suggest that the ninth ligand, an axial water molecule, is key in defining the magnetic properties because it breaks the potential C 4 symmetry of the resulting complexes. In this paper, we experimentally isolate the role of the water molecule by excluding it from the metal coordination sphere without altering the chemical structure of the ligand. Our complexes are therefore designed to be geometrically tetragonal and strict crystallographic symmetry is achieved by exploiting a combination of solution ionic strength and solid state packing effects. A thorough multitechnique approach has been used to unravel the electronic structure and magnetic anisotropy of the complexes. Moreover, the geometry enhancement allows us to predict, using only one angle obtained from the crystal structure, the ground state composition of all the studied derivatives (Ln = Tb to Yb). Therefore, these systems also provide an excellent platform to test the validity and limitations of the ab initio methods. Our combined experimental and theoretical investigation proves that the water molecule is indeed key in defining the magnetic anisotropy and the slow relaxation of these complexes., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2023

14. A nickel(II) complex with an unsymmetrical tetra-dentate chelating ligand derived from pyridine-2,6-dicarbaldehyde and 2-amino-thio-phenol.

Author

Al-Zeidaneen FK, Anson CE, and Powell AK

Abstract

[(2-{[6-(1,3-Benzo-thia-zol-2-yl)pyridin-2-yl]carbonyl-aza-nid-yl}phen-yl)sulf-anido]nickel(II), [Ni(C 19 H 11 N 3 OS 2 )], crystallizes in the centrosymmetric monoclinic space group P 2 1 / n with one mol-ecule in the asymmetric unit. The expected ligand, a bis-Schiff base derived from pyridine-2,6-dicarbaldehyde and 2-amino-thio-phenol, had modified in situ in a both unexpected and unsymmetrical fashion. One arm had cyclized to form a benzo[ d ]thia-zol-2-yl functionality, while the imine linkage of the second arm had oxidized to an amide group. The geometry about the central Ni II atom is distorted square-planar N 3 S. The mol-ecules form supra-molecular face-to-face dimers via rather strong π-π stacking inter-actions, with these dimers then linked into chains via pairwise C-H⋯O inter-actions., (© Al-Zeidaneen et al. 2023.)

Published

2023

15. Fe-Gd Ferromagnetic Cyclic Coordination Cluster [Fe III 4 Gd III 4 (teaH) 8 (N 3 ) 8 (H 2 O)] with Magnetic Anisotropy─Theory and Experiment.

Author

Schray D, Westerbeck D, Braun J, Lan Y, Gómez-Coca S, Wernsdorfer W, Ruiz E, Anson CE, Schnack J, and Powell AK

Abstract

The synthesis, structural, and magnetic characterization of [Fe III 4 Ln III 4 (teaH) 8 (N 3 ) 8 (H 2 O)] (Ln = Gd and Y) and the previously reported isostructural Dy analogue are discussed. The commonly held belief that both Fe III and Gd III can be regarded as isotropic ions is shown to be an oversimplification. This conclusion is derived from the magnetic data for the Y III analogue in terms of the zero-field splitting seen for Fe III and from the fact that the magnetic data for the new Gd III analogue can only be fit employing an additional anisotropy term for the Gd III ions. Furthermore, the Fe 4 Gd 4 ring shows slow relaxation of magnetization. Our analysis of the experimental magnetic data employs both density functional theory as well as the finite-temperature Lanczos method which finally enables us to provide an almost perfect fit of magnetocaloric properties.

Published

2023

16. High sensitivity (zeptomole) detection of BODIPY-labelled heparan sulfate (HS) disaccharides by ion-paired RP-HPLC and LIF detection enables analysis of HS from mosquito midguts.

Author

Maciej-Hulme ML, Leprince ACN, Lavin A, Guimond SE, Turnbull JE, Pelletier J, Yates EA, Powell AK, and Skidmore MA

Subjects

Animals, Chromatography, High Pressure Liquid methods, Heparitin Sulfate analysis, Heparitin Sulfate chemistry, Mammals, Disaccharides analysis, Disaccharides chemistry, Culicidae

Abstract

The fine structure of heparan sulfate (HS), the glycosaminoglycan polysaccharide component of cell surface and extracellular matrix HS proteoglycans, coordinates the complex cell signalling processes that control homeostasis and drive development in multicellular animals. In addition, HS is involved in the infection of mammals by viruses, bacteria and parasites. The current detection limit for fluorescently labelled HS disaccharides (low femtomole; 10 -15 mol), has effectively hampered investigations of HS composition in small, functionally-relevant populations of cells and tissues that may illuminate the structural requirements for infection and other biochemical processes. Here, an ultra-high sensitivity method is described that utilises a combination of reverse-phase HPLC, with tetraoctylammonium bromide (TOAB) as the ion-pairing reagent and laser-induced fluorescence detection of BODIPY-FL-labelled disaccharides. The method provides an unparalleled increase in the sensitivity of detection by ∼six orders of magnitude, enabling detection in the zeptomolar range (∼10 -21 moles; <1000 labelled molecules). This facilitates determination of HS disaccharide compositional analysis from minute samples of selected tissues, as demonstrated by analysis of HS isolated from the midguts of Anopheles gambiae mosquitoes that was achieved without approaching the limit of detection.

Published

2023

17. Are there foetal extracellular vesicles in maternal blood? Prospects for diagnostic biomarker discovery.

Author

Adamova P, Lotto RR, Powell AK, and Dykes IM

Subjects

Pregnancy, Female, Humans, Fetus, Biomarkers metabolism, Placenta metabolism, Extracellular Vesicles metabolism

Abstract

Prenatal diagnosis of congenital disease improves clinical outcomes; however, as many as 50% of congenital heart disease cases are missed by current ultrasound screening methods. This indicates a need for improved screening technology. Extracellular vesicles (EVs) have attracted enormous interest in recent years for their potential in diagnostics. EVs mediate endocrine signalling in health and disease and are known to regulate aspects of embryonic development. Here, we critically evaluate recent evidence suggesting that EVs released from the foetus are able to cross the placenta and enter the maternal circulation. Furthermore, EVs from the mother appear to be transported in the reverse direction, whilst the placenta itself acts as a source of EVs. Experimental work utilising rodent models employing either transgenically encoded reporters or application of fluorescent tracking dyes provide convincing evidence of foetal-maternal crosstalk. This is supported by clinical data demonstrating expression of placental-origin EVs in maternal blood, as well as limited evidence for the presence of foetal-origin EVs. Together, this work raises the possibility that foetal EVs present in maternal blood could be used for the diagnosis of congenital disease. We discuss the challenges faced by researchers in translating these basic science findings into a clinical non-invasive prenatal test., (© 2022. The Author(s).)

Published

2023

18. NMR Relaxivities of Paramagnetic, Ultra-High Spin Heterometallic Clusters within Polyoxometalate Matrix as a Function of Solvent and Metal Ion.

Author

Schork N, Ibrahim M, Baksi A, Krämer S, Powell AK, and Guthausen G

Subjects

Anions, Ions, Magnetic Resonance Imaging, Polyelectrolytes, Solvents, Contrast Media chemistry, Lanthanoid Series Elements chemistry

Abstract

Selectivity and image contrast are always challenging in magnetic resonance imaging (MRI), which are - inter alia - addressed by contrast agents. These compounds still need to be improved, and their relaxation properties, i. e., their paramagnetic relaxation enhancement (PRE), needs to be understood. The main goal is to improve specificity and relaxivities, especially at the high magnetic fields currently exploited not only in material science but also in the medical environment. Longitudinal and transverse relaxivities, r 1 and r 2 , which correspond to the longitudinal and transverse relaxation rates R 1 and R 2, normalized to the concentration of the paramagnetic moieties, need to be considered because both contribute to the image contrast. 1 H-relaxivities r 1 and r 2 of high-spin heterometallic clusters were studied containing lanthanide and transition-metal ions within a polyoxometalate matrix. A wide range of magnetic fields from 0.5 T/20 MHz to 33 T/1.4 GHz was applied. The questions addressed here concern the rotational and diffusion correlation times which determine the relaxivities and are affected by the solvent's viscosity. Moreover, the variation of the lanthanide and transition-metal ions of the clusters provided insights into the sensitivity of PRE with respect to the electron spin properties of the paramagnetic centers as well as cooperative effects between lanthanides and transition metal ions., (© 2022 Wiley-VCH GmbH.)

Published

2022

19. Subcomponent self-assembly of circular helical Dy 6 (L) 6 and bipyramid Dy 12 (L) 8 architectures directed via second-order template effects.

Author

Li XL, Zhao L, Wu J, Shi W, Struch N, Lützen A, Powell AK, Cheng P, and Tang J

Abstract

In situ metal-templated (hydrazone) condensation also called subcomponent self-assembly of 4,6-dihydrazino-pyrimidine, o -vanillin and dysprosium ions resulted in the formation of discrete hexa- or dodecanuclear metallosupramolecular Dy 6 (L) 6 or Dy 12 (L) 8 aggregates resulting from second-order template effects of the base and the lanthanide counterions used in these processes. XRD analysis revealed unique circular helical or tetragonal bipyramid architectures in which the bis(hydrazone) ligand L adopts different conformations and shows remarkable differences in its mode of metal coordination. While a molecule of trimethylamine acts as a secondary template that fills the void of the Dy 6 (L) 6 assembly, sodium ions take on this role for the formation of heterobimetallic Dy 12 (L) 8 by occupying vacant coordination sites, thus demonstrating that these processes can be steered in different directions upon subtle changes of reaction conditions. Furthermore, Dy 6 (L) 6 shows an interesting spin-relaxation energy barrier of 435 K, which is amongst the largest values within multinuclear lanthanide single-molecular magnets., Competing Interests: The authors declare no conflict of interest., (This journal is © The Royal Society of Chemistry.)

Published

2022

20. Experimental and Theoretical Study of the Ultrafast Dynamics of a Ni 2 Dy 2 -Compound in DMF After UV/Vis Photoexcitation.

Author

Sold S, Mummaneni BC, Michenfelder NC, Peng Y, Powell AK, Unterreiner AN, Lefkidis G, and Hübner W

Abstract

We present a combined experimental and theoretical study of the ultrafast transient absorption spectroscopy results of a {Ni 2 Dy 2 }-compound in DMF, which can be considered as a prototypic molecule for single molecule magnets. We apply state-of-the-art ab initio quantum chemistry to quantitatively describe the optical properties of an inorganic complex system comprising ten atoms to form the chromophoric unit, which is further stabilized by surrounding ligands. Two different basis sets are used for the calculations to specifically identify two dominant peaks in the ground state. Furthermore, we theoretically propagate the compound's correlated many-body wavefunction under the influence of a laser pulse as well as relaxation processes and compare against the time-resolved absorption spectra. The experimental data can be described with a time constant of several hundreds of femtoseconds attributed to vibrational relaxation and trapping into states localized within the band gap. A second time constant is ascribed to the excited state while trap states show lifetimes on a longer timescale. The theoretical propagation is performed with the density-matrix formalism and the Lindblad superoperator, which couples the system to a thermal bath, allowing us to extract relaxation times from first principles., (© 2021 The Authors. Published by Wiley-VCH GmbH.)

Published

2022

21. Experimental and Theoretical Study of the Ultrafast Dynamics of a Ni 2 Dy 2 -Compound in DMF After UV/Vis Photoexcitation.

Author

Sold S, Mummaneni BC, Michenfelder NC, Peng Y, Powell AK, Unterreiner AN, Lefkidis G, and Hübner W

Abstract

Invited for this month's cover picture are the groups of Wolfgang Hübner (TU Kaiserslautern, Germany), Annie Powell (Karlsruhe Institut of Technology, Germany), and Andreas-Neil Unterreiner (Karlsruhe Institut of Technology, Germany). The cover picture shows the Dy 2 Ni 2 -molecular magnet being excited with a UV/Vis laser pulse, together with its time-resolved spectrum after the pulse. The comparison of the theoretical and the experimental spectra together with both the observed and the calculated relaxation times reveal, among others, three key points: the intermediate states participating in the laser-induced dynamics, the partial metal-to-oxygen charge-transfer excitations, and the order of magnitude of the coupling of the molecular magnet to the thermal bath of the environment. Read the full text of their Full Paper at 10.1002/open.202100153., (© 2022 Wiley-VCH GmbH.)

Published

2022