Your search keyword '"Mikulska, Iuliia"' showing total 4 results

1. Role of Fe Impurity Reactions in the Electrochemical Properties of MgFeB 2 O 5 .

Author

Tacconis C, Dey S, McLaughlin CD, Sougrati MT, O'Keefe CA, Mikulska I, Grey CP, and Dutton SE

Abstract

We investigate magnesium-iron pyroborate MgFeB 2 O 5 as a potential cathode material for rechargeable magnesium-ion batteries. Synchrotron powder X-ray diffraction and Mössbauer spectroscopy confirm its successful synthesis and iron stabilization in the high-spin Fe(II) state. Initial electrochemical testing against a lithium metal anode yields a first charge capacity near the theoretical value (147.45 mAh·g -1 ), suggesting MgFeB 2 O 5 as a promising cathode candidate. However, multimodal analyses, including scanning electron microscopy energy-dispersive X-ray (SEM-EDS) analysis, operando X-ray absorption near edge spectroscopy (XANES), and Mössbauer spectroscopy, reveal the absence of any Fe redox reactions. Instead, we propose that the source of the observed capacity involves the irreversible reaction of a small (4-7 wt%) Fe metal impurity. These findings highlight the need for diverse characterization techniques in evaluating the performance of new Mg cathode materials, since promising initial cycling may be caused by competing side reactions rather than Mg (de)intercalation., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

2. Atomically dispersed asymmetric cobalt electrocatalyst for efficient hydrogen peroxide production in neutral media.

Author

Liu L, Kang L, Feng J, Hopkinson DG, Allen CS, Tan Y, Gu H, Mikulska I, Celorrio V, Gianolio D, Wang T, Zhang L, Li K, Zhang J, Zhu J, Held G, Ferrer P, Grinter D, Callison J, Wilding M, Chen S, Parkin I, and He G

Abstract

Electrochemical hydrogen peroxide (H 2 O 2 ) production (EHPP) via a two-electron oxygen reduction reaction (2e - ORR) provides a promising alternative to replace the energy-intensive anthraquinone process. M-N-C electrocatalysts, which consist of atomically dispersed transition metals and nitrogen-doped carbon, have demonstrated considerable EHPP efficiency. However, their full potential, particularly regarding the correlation between structural configurations and performances in neutral media, remains underexplored. Herein, a series of ultralow metal-loading M-N-C electrocatalysts are synthesized and investigated for the EHPP process in the neutral electrolyte. CoNCB material with the asymmetric Co-C/N/O configuration exhibits the highest EHPP activity and selectivity among various as-prepared M-N-C electrocatalyst, with an outstanding mass activity (6.1 × 10 5  A g Co -1 at 0.5 V vs. RHE), and a high practical H 2 O 2 production rate (4.72 mol g catalyst -1  h -1  cm -2 ). Compared with the popularly recognized square-planar symmetric Co-N 4 configuration, the superiority of asymmetric Co-C/N/O configurations is elucidated by X-ray absorption fine structure spectroscopy analysis and computational studies., (© 2024. The Author(s).)

Published

2024

3. Design of the elusive proteinaceous oxygen donor copper site suggests a promising future for copper for MRI contrast agents.

Author

Shah A, Taylor MJ, Molinaro G, Anbu S, Verdu M, Jennings L, Mikulska I, Diaz-Moreno S, El Mkami H, Smith GM, Britton MM, Lovett JE, and Peacock AFA

Subjects

Magnetic Resonance Imaging, Binding Sites, Peptides, Copper metabolism, Contrast Media chemistry

Abstract

We report the preparation and spectroscopic characterization of a highly elusive copper site bound exclusively to oxygen donor atoms within a protein scaffold. Despite copper generally being considered unsuitable for use in MRI contrast agents, which in the clinic are largely Gd(III) based, the designed copper coiled coil displays relaxivity values equal to, or superior than, those of the Gd(III) analog at clinical field strengths. The creation of this new-to-biology proteinaceous CuO x -binding site demonstrates the power of the de novo peptide design approach to access chemistry for abiological applications, such as for the development of MRI contrast agents.

Published

2023

4. The Spectroscopy Village at Diamond Light Source.

Author

Diaz-Moreno S, Amboage M, Basham M, Boada R, Bricknell NE, Cibin G, Cobb TM, Filik J, Freeman A, Geraki K, Gianolio D, Hayama S, Ignatyev K, Keenan L, Mikulska I, Mosselmans JFW, Mudd JJ, and Parry SA

Abstract

This manuscript presents the current status and technical details of the Spectroscopy Village at Diamond Light Source. The Village is formed of four beamlines: I18, B18, I20-Scanning and I20-EDE. The village provides the UK community with local access to a hard X-ray microprobe, a quick-scanning multi-purpose XAS beamline, a high-intensity beamline for X-ray absorption spectroscopy of dilute samples and X-ray emission spectroscopy, and an energy-dispersive extended X-ray absorption fine-structure beamline. The optics of B18, I20-scanning and I20-EDE are detailed; moreover, recent developments on the four beamlines, including new detector hardware and changes in acquisition software, are described., (open access.)

Published

2018