about
RGD and YIGSR synthetic peptides facilitate cellular adhesion identical to that of laminin and fibronectin but alter the physiology of neonatal cardiac myocytesDerivatization of surface-bound peptides for mass spectrometric detection via threshold single photon ionization.Organic overlayer model of a dental composite analyzed by laser desorption postionization mass spectrometry and photoemission.Light and molecular ions: the emergence of vacuum UV single-photon ionization in MSSolid Sampling with a Diode Laser for Portable Ambient Mass Spectrometry.Laser desorption postionization for imaging MS of biological material.Antibacterial activity of dental composites containing zinc oxide nanoparticlesHandheld directed energy sensor for environmental monitoring and clinician safety.Laser desorption postionization mass spectrometry of antibiotic-treated bacterial biofilms using tunable vacuum ultraviolet radiation.Surface mass spectrometry of biotinylated self-assembled monolayers.Feasibility of depth profiling of animal tissue by ultrashort pulse laser ablationIdentification and imaging of peptides and proteins on Enterococcus faecalis biofilms by matrix assisted laser desorption ionization mass spectrometryQuantification of antibiotic in biofilm-inhibiting multilayers by 7.87 eV laser desorption postionization MS imaging.Laser desorption VUV postionization MS imaging of a cocultured biofilm.Molecular imaging and depth profiling of biomaterials interfaces by femtosecond laser desorption postionization mass spectrometry.Differentiation of microbial species and strains in coculture biofilms by multivariate analysis of laser desorption postionization mass spectra.Laser desorption ion trap mass spectrometry of self-assembled monolayers.Laser desorption postionization mass spectrometry imaging of biological targets.High lateral resolution vs molecular preservation in near-IR fs-laser desorption postionization mass spectrometry.ChiMS: Open-source instrument control software platform on LabVIEW for imaging/depth profiling mass spectrometers.Determining the conformation of an adsorbed Br-PEG-peptide by long period X-ray standing wave fluorescence.Ion sources for mass spectrometric identification and imaging of molecular species.GRGDSP peptide-bound silicone membranes withstand mechanical flexing in vitro and display enhanced fibroblast adhesion.Cluster beam deposition of Cu(2-X)S nanoparticles into organic thin films.Surface polymerization by ion-assisted deposition for polythiophene film growth.Growth of novel polythiophene and polyphenyl films via surface polymerization by ion-assisted deposition.Three-dimensional chemical structures by protein functionalized micron-sized beads bound to polylysine-coated silicone surfaces.Morphology of polythiophene and polyphenyl films produced via surface polymerization by ion-assisted deposition.Competitive resource allocation to metabolic pathways contributes to overflow metabolisms and emergent properties in cross-feeding microbial consortia.Mechanistic studies of plasma polymerization of allylamine.Cluster Beam Deposition of Lead Sulfide Nanocrystals into Organic MatricesEnergetics, timescales, and chemistry of low energy molecular ion–organic surface collisionsDifferentiation of human bone-derived cells grown on GRGDSP-peptide bound titanium surfacesPhotoemission studies of polythiophene and polyphenyl films produced via surface polymerization by ion-assisted depositionThin hydroxyapatite coatings via sol-gel synthesisRelative dissociation energies of protonated peptides by electrospray ionization/surface-induced dissociationFemtosecond laser desorption ionization mass spectrometry imaging and multivariate analysis of lipids in pancreatic tissueReverse diauxie phenotype in Pseudomonas aeruginosa biofilm revealed by exometabolomics and label-free proteomicsLaser Desorption Combined with Laser Postionization for Mass Spectrometry
P50
Q28282427-D6F990F4-2BCE-4CEC-836A-B1A714509295Q31102631-E1A9A0D9-1D4A-481A-909E-FACF3598801FQ33229211-6E754742-BF1E-40E4-ABEB-F3843E2582F7Q33454882-046B102B-75C5-4DA5-B99F-ED1E975AF38EQ33470739-1AE0192A-2BF5-4D53-90C3-E3FC0155E8F3Q33530481-1790E427-92BA-4FAC-AC4A-205331A765BEQ33540234-FD7A15FA-D02D-4AB5-8790-2DB57E4C954CQ33601713-8F212B0E-2BB4-43B9-AA2E-20B4C664B75CQ33659336-88E95B64-2E5A-464A-95A8-5A8C5478AC21Q33921819-F18438E6-159D-46F9-BCAD-84569700F802Q34223731-549DC26F-21AF-4C8D-977F-77E0A95AF44AQ34409916-DBFD7CAD-F14A-4EF5-AF75-D27182A5A1CBQ34423000-3E2C1BF6-7AC6-494C-9B04-CCC69F644173Q34439764-F981BC17-283E-4619-A639-45F683545C10Q34942948-CF855B9F-8ED8-444D-97A4-A6875E0563DAQ34997953-C81D2F4D-8E75-4E0C-BE06-59894448DE67Q35042254-65C9DE3A-B88C-4472-A06B-FB39C73DC63EQ35384378-D6345D73-F268-4C38-8AC1-363FE558FD1CQ35486342-118E76DB-9B12-4B97-AD0F-8BA8FBFAFF7BQ35680542-3C78882B-D1B9-4225-B123-142D245FC3F6Q36973860-666D511C-B9FF-4C13-868D-157DF19700CAQ38182810-57AE92C7-B842-4773-95EC-2FA3121445E5Q44052981-00393FDC-5FE5-4727-BB27-B5C59420704FQ44185292-F3EDD2E2-6491-45AA-B1A1-DCA78F80CD52Q44326007-9431A4F6-0799-4602-81E6-91CBB96EF824Q45067150-0B2893E7-2EBB-434D-9708-B563E6238093Q45237147-1ABC7DCB-0E6A-48DA-8C75-C929A21DDA17Q46910945-23BD696E-A36F-41AB-BCE2-22A5051151F7Q51151733-923F748D-E588-4B07-8A1D-F5EC44D4B8C0Q51937107-F58532D8-4BFC-4E8A-BDB5-50FE7F86DDF2Q57348396-0359F2F6-0724-4F0B-93CF-A09FE8B5FA89Q59912830-5684F4B2-AE42-4E56-ADEC-28640A4AD4BAQ78667296-42817D0B-82F8-4152-9156-33881982733DQ79937464-CE85B918-AE50-4B27-A27E-B50FDA85254FQ80529870-06835E8D-3677-4A80-8787-15E02D1D42FDQ84331946-C00A21CC-EB60-4442-9B20-41D7268A8950Q88246625-8E69A726-445E-4E2D-AF52-1D8B4452D349Q91015155-7178DDD6-86B3-4058-AEF2-0F45D6F395DBQ91750778-996E7813-B36D-47C1-82A5-63CC570C8702
P50
description
researcher ORCID ID = 0000-0001-7856-1869
@en
wetenschapper
@nl
name
Luke Hanley
@ast
Luke Hanley
@en
Luke Hanley
@es
Luke Hanley
@nl
type
label
Luke Hanley
@ast
Luke Hanley
@en
Luke Hanley
@es
Luke Hanley
@nl
prefLabel
Luke Hanley
@ast
Luke Hanley
@en
Luke Hanley
@es
Luke Hanley
@nl
P106
P1153
7006798668
P31
P496
0000-0001-7856-1869