David Parker's Outputs (3)

Comparative Analysis of a Series of pH‐Responsive Sulphonated Europium Complexes for Bioassays Monitoring Acidification (2022)
Journal Article
Fradgley, J. D., Starck, M., Lamarque, L., & Parker, D. (2022). Comparative Analysis of a Series of pH‐Responsive Sulphonated Europium Complexes for Bioassays Monitoring Acidification. European Journal of Inorganic Chemistry, 2022(32), Article e202200426. https://doi.org/10.1002/ejic.202200426

The synthesis and photophysical evaluation of a series of hydrophilic sulphonated and pH responsive luminescent europium(III) probes are reported. The Eu emission intensities and lifetimes increase very significantly on lowering pH, leading to a ‘swi... Read More about Comparative Analysis of a Series of pH‐Responsive Sulphonated Europium Complexes for Bioassays Monitoring Acidification.

Versatile, Cheap, Readily Modifiable Sample Delivery Method for Analysis of Air-/Moisture-Sensitive Samples Using Atmospheric Pressure Solids Analysis Probe Mass Spectrometry (2022)
Journal Article
Strong, K. A., Stokes, P., Parker, D., Buckley, A. K., Mosely, J. A., Brodie, C. N., & Dyer, P. W. (2022). Versatile, Cheap, Readily Modifiable Sample Delivery Method for Analysis of Air-/Moisture-Sensitive Samples Using Atmospheric Pressure Solids Analysis Probe Mass Spectrometry. Analytical Chemistry, 94(32), 11315-11320. https://doi.org/10.1021/acs.analchem.2c02039

A cheap, versatile, readily modified, and reusable glass probe system enabling delivery of solid air-/moisture-sensitive samples for mass spectrometric (MS) analysis using an Atmospheric pressure Solids Analysis Probe (ASAP) is described. The simplic... Read More about Versatile, Cheap, Readily Modifiable Sample Delivery Method for Analysis of Air-/Moisture-Sensitive Samples Using Atmospheric Pressure Solids Analysis Probe Mass Spectrometry.

Circularly polarised luminescence laser scanning confocal microscopy to study live cell chiral molecular interactions (2022)
Journal Article
Stachelek, P., MacKenzie, L., Parker, D., & Pal, R. (2022). Circularly polarised luminescence laser scanning confocal microscopy to study live cell chiral molecular interactions. Nature Communications, 13(1), Article 533. https://doi.org/10.1038/s41467-022-28220-z

The molecular machinery of life is founded on chiral building blocks, but no experimental technique is currently available to distinguish or monitor chiral systems in live cell bio-imaging studies. Luminescent chiral molecules encode a unique optical... Read More about Circularly polarised luminescence laser scanning confocal microscopy to study live cell chiral molecular interactions.