about
Glass Fragility and Atomic Ordering on the Intermediate and Extended RangeDo 'passive' medical titanium surfaces deteriorate in service in the absence of wear?Effects of rare-earth co-doping on the local structure of rare-earth phosphate glasses using high and low energy X-ray diffraction.Lymphoid aggregates that resemble tertiary lymphoid organs define a specific pathological subset in metal-on-metal hip replacementsPaternal low protein diet programs preimplantation embryo gene expression, fetal growth and skeletal development in mice.Titanium phosphate glass microspheres for bone tissue engineering.Controlling particle size in the Stöber process and incorporation of calcium.A molecular dynamics model of the atomic structure of dysprosium alumino-phosphate glass.A structural investigation of the alkali metal site distribution within bioactive glass using neutron diffraction and multinuclear solid state NMR.Structure and thermal properties of yttrium alumino-phosphate glasses.Bioactive glass sol-gel foam scaffolds: Evolution of nanoporosity during processing and in situ monitoring of apatite layer formation using small- and wide-angle X-ray scattering.Structural characterization of titanium-doped Bioglass using isotopic substitution neutron diffraction.Protein-protein interactions in ovalbumin solutions studied by small-angle scattering: effect of ionic strength and the chemical nature of cations.Atomic structure of Mg-based metallic glasses from molecular dynamics and neutron diffraction.Effect of calcium source on structure and properties of sol-gel derived bioactive glassesA study of the formation of amorphous calcium phosphate and hydroxyapatite on melt quenched Bioglass® using surface sensitive shallow angle X-ray diffractionThe structure of the rare-earth phosphate glass (Sm2O3)0.205(P2O5)0.795studied by anomalous dispersion neutron diffractionIntracoronal stress transfer through enamel following RBC photopolymerisation: A synchrotron X-ray studyIn vitro bioactivity of titanium-doped bioglassComprehensive in vitro and in vivo studies of novel melt-derived Nb-substituted 45S5 bioglass reveal its enhanced bioactive properties for bone healingTopological versus chemical ordering in network glasses at intermediate and extended length scalesAn X-ray micro-fluorescence study to investigate the distribution of Al, Si, P and Ca ions in the surrounding soft tissue after implantation of a calcium phosphate-mullite ceramic composite in a rabbit animal modelThe influence of pH and fluid dynamics on the antibacterial efficacy of 45S5 BioglassStructure of glassy GeO2In vitro and in vivo osteogenic potential of niobium-doped 45S5 bioactive glass: A comparative studyEvaluation of effectiveness of 45S5 bioglass doped with niobium for repairing critical-sized bone defect in in vitro and in vivo modelsAntibacterial silver-doped phosphate-based glasses prepared by coacervationThe antimicrobial efficacy of zinc doped phosphate-based glass for treating catheter associated urinary tract infectionsPhoto-polymerisation variables influence the structure and subsequent thermal response of dental resin matricesImproving our understanding of metal implant failures: Multiscale chemical imaging of exogenous metals in ex-vivo biological tissues
P50
Q27350339-93CE5102-9F41-40DB-803D-E3D6B04CBA34Q30526447-EAC8B971-5472-447D-BCCE-EE46A8AA6245Q31113717-E7F994B2-BBE5-4F2C-9DC2-F5B24E14B78FQ34749293-CBF653EA-65D5-46CC-A759-C114070437FBQ38965602-2FC5E7F8-3280-4E48-AF9E-6C595D410C76Q39307740-4FF9B051-555B-448E-A88C-56604FDB0661Q39987646-FD7468BB-1E28-4A50-9C35-6CB63AE3E7F9Q42728321-00DF80A6-9BB5-4858-A8CE-7D4ADCF93F89Q43538585-B61B882A-FA79-450E-A8B4-9A1A53FC4FA2Q44133457-779D8B45-290B-4CB1-B728-A396980859C6Q44909695-D318E194-EEB0-498C-A17A-BDDBF3D89258Q46053659-4EBEE46B-1E63-4E3E-B8DB-553C95E68F49Q46529141-BA8F439A-D780-4A56-946F-33FF93EF5C70Q48135908-9D083649-5E26-42F6-84EA-EB5C3C18AC89Q57096368-800EF1D8-3120-492E-973F-DF3369635CDFQ57777650-F45B9E01-46E4-4D8F-8E3D-80B1B6728A52Q57777714-0F12F484-FA44-4F28-A6C6-83B9E759F09FQ57838601-5336F8D2-5634-4A00-AC49-9983567EB096Q57838621-0833A6A6-3E0A-4A10-AA49-D5BAF3482FCDQ58707950-C0D517E9-896A-4D02-8D66-DAEF6F40409CQ59082406-A5FF06DB-BD18-4452-8400-E9250E8B0291Q84855481-85AC1A2D-2297-4094-B5D1-1FB6207FA686Q87211328-13392D13-4FAD-4ACE-852B-8BAA0974153DQ89261968-E1CD46A0-DED4-4C35-AB0A-D9805A76D100Q90474998-581BE945-F912-4CB8-B563-3CF7A580C6D8Q90967232-156CD321-4FD5-4A39-8CA8-403D8DBB78E1Q91370612-4BF80505-2242-4F7D-A45E-AAF1904493A6Q92208858-90896B44-1FA1-47D8-9AB0-80057FBB820AQ92560785-D12BC86F-6781-41C5-80DB-B1B311CF85B3Q92586974-C98F156F-EE96-4DB4-84AD-298D30FAEB0D
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Richard A. Martin
@ast
Richard A. Martin
@en
Richard A. Martin
@es
Richard A. Martin
@nl
Richard A. Martin
@sl
type
label
Richard A. Martin
@ast
Richard A. Martin
@en
Richard A. Martin
@es
Richard A. Martin
@nl
Richard A. Martin
@sl
prefLabel
Richard A. Martin
@ast
Richard A. Martin
@en
Richard A. Martin
@es
Richard A. Martin
@nl
Richard A. Martin
@sl
P106
P108
P1153
7501382403
P21
P31
P496
0000-0002-6013-2334