about
A membrane-less enzymatic fuel cell with layer-by-layer assembly of redox polymer and enzyme over graphite electrodes.An enzyme-amplified amperometric DNA hybridisation assay using DNA immobilised in a carboxymethylated dextran film anchored to a graphite surface.Discovery of anti-cancer activity for benzo[1,2,4]triazin-7-ones: Very strong correlation to pleurotin and thioredoxin reductase inhibition.New Luminescent Polynuclear Metal Complexes with Anticancer Properties: Toward Structure-Activity Relationships.Synthesis by radical cyclization and cytotoxicity of highly potent bioreductive alicyclic ring fused [1,2-a]benzimidazolequinones.Geobacter sulfurreducens biofilms developed under different growth conditions on glassy carbon electrodes: insights using cyclic voltammetry.The mechanism of aquaporin inhibition by gold compounds elucidated by biophysical and computational methods.Membraneless glucose/oxygen enzymatic fuel cells using redox hydrogel films containing carbon nanotubes.Redox polymer and probe DNA tethered to gold electrodes for enzyme-amplified amperometric detection of DNA hybridization.Comparative proteomics implicates a role for multiple secretion systems in electrode-respiring Geobacter sulfurreducens biofilms.Charge transport in films of Geobacter sulfurreducens on graphite electrodes as a function of film thickness.Crosslinked redox polymer enzyme electrodes containing carbon nanotubes for high and stable glucose oxidation currentCharge Transport through Geobacter sulfurreducens Biofilms Grown on Graphite RodsA comparison of redox polymer and enzyme co-immobilization on carbon electrodes to provide membrane-less glucose/O2 enzymatic fuel cells with improved power output and stabilityEvaluation of performance and stability of biocatalytic redox films constructed with different copper oxygenases and osmium-based redox polymersMediated glucose enzyme electrodes by cross-linking films of osmium redox complexes and glucose oxidase on electrodesMediated electron transfer in glucose oxidising enzyme electrodes for application to biofuel cells: recent progress and perspectives
P50
Q35869004-3376920C-FED0-495E-B9C0-1DCAA15CF845Q38349617-536293AA-C270-463D-BE16-72D16F13E758Q38764943-821D8BF3-ADAD-41BF-8F14-842005CD3128Q38795037-275AA47B-E4E2-46D8-BCF0-7771943CFEADQ40187749-2BBE55C6-14DF-4424-8F50-20D893102443Q43058988-47346C21-B8C0-4292-906D-A2E933F74A5DQ48111440-4DBC9CC5-F462-40A6-85EC-0D32FE574673Q50232111-6F0D39D3-18AC-4640-9A41-5CD2205B4B5CQ51225906-AA206334-EF96-43BD-BD56-DBA2DFE6F603Q51414328-40A7757A-E3AB-4D21-8EB1-6842FCF40B04Q53583466-796E4987-70F7-4FCA-BACA-4BD42DDF65D6Q60195660-524A8DE8-A0B9-4D72-A7E4-F41DA5E0ADA4Q60213671-99608447-D98A-4E19-98E3-6C9D50569839Q82063051-1580EF76-1AA7-44A0-A8C7-472C799CF16FQ83951243-F3F56736-56C2-41E5-8604-4C016144836FQ85888565-D9F7D73D-012B-4360-A6F1-F78275047CD0Q86207855-05EBD79A-F8A9-42EB-8C61-22AA4F854A8F
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Paul Kavanagh
@ast
Paul Kavanagh
@en
Paul Kavanagh
@es
Paul Kavanagh
@nl
Paul Kavanagh
@sl
type
label
Paul Kavanagh
@ast
Paul Kavanagh
@en
Paul Kavanagh
@es
Paul Kavanagh
@nl
Paul Kavanagh
@sl
prefLabel
Paul Kavanagh
@ast
Paul Kavanagh
@en
Paul Kavanagh
@es
Paul Kavanagh
@nl
Paul Kavanagh
@sl
P1053
F-1542-2010
P106
P1153
7006696693
P21
P31
P3829
P496
0000-0002-1517-7509