Browsing by Author "Alexander, Morgan R."
Now showing items 1-6 of 6
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Data for Discovery of synergistic material-topography combinations to achieve immunomodulatory osteoinductive biomaterials using a novel in vitro screening method: The ChemoTopoChip
Alexander, Morgan R. (The University of Nottingham, 2020-09-18)Human mesenchymal stem cells (hMSCs) are widely represented in regenerative medicine clinical strategies due to their compatibility with autologous implantation. Effective bone regeneration involves crosstalk between ... -
Elucidating the molecular landscape of the stratum corneum
Starr, Nichola J; Khan, Mohammed H; Edney, Max; Trindade, Gustavo F.; Kern, Stefanie; Pirkl, Alexander; Kleine-Boymann, Matthias; Elms, Chris; O'Mahony, M.; Bell, Mike; Alexander, Morgan R.; Scurr, David (The University of Nottingham, 2022-03-18)• Characterization of the molecular structure of skin, especially the barrier layer, the stratum corneum using 3D OrbiSIMS. • Understand the chemical variations relating to fundamental biological processes, such as the ... -
Evaluation of the relative potential for contact and doffing transmission of SARS-CoV-2 by a range of personal protective equipment materials_supplementary data
Alexander, Morgan R. (The University of Nottingham, 2022-05-27)The datasets generated and/or analysed during the study to support publications and reports. -
Fungal biofilm formation on potential anti-attachment materials
Vallieres, Cindy; Alexander, Morgan R.; Avery, Simon V. (The University of Nottingham, 2020-06-02)(Meth)acrylate polymers showing the lowest fungal attachment (from a preceding microarray-spot screen) were assayed by scale-up to coat the 6.4-mm diameter wells of 96-well plates. Polymers showing surface cracking were ... -
A linear, binary classifier to predict bacterial biofilm formation on polyacrylates
Williams, Phil; Alexander, Morgan R. (The University of Nottingham, 2022-09-08)Datafiles, in Microsoft Excel format, associated with the manuscript "A linear, binary classifier to predict bacterial biofilm formation on polyacrylates" These files contain ToF-SIMS ion peaks and the bacterial attachment ... -
Single cell tracking on polymer microarray reveals the impact of surface chemistry on Pseudomonas aeruginosa twitching speed and biofilm development
Carabelli, Alessandro Maria; Alexander, Morgan R.; Williams, Paul (The University of Nottingham, 2020-09-01)Dataset contains raw and processed data used for the creation of figures in publication entitled 'Single cell tracking on polymer microarray reveals the impact of surface chemistry on Pseudomonas aeruginosa twitching speed ...