about
sameAs
Internalization of ferromagnetic nanowires by different living cells.In Vivo EPR For Dosimetry.Accelerated discovery of new magnets in the Heusler alloy family.Oxygen Vacancy in WO3 Film-based FET with Ionic Liquid Gating.Models for the active site in [FeFe] hydrogenase with iron-bound ligands derived from bis-, tris-, and tetrakis(mercaptomethyl)silanes.Influence of strong static magnetic fields on primary cortical neurons.Electron Transport at the TiO₂ Surfaces of Rutile, Anatase, and Strontium Titanate: The Influence of Orbital Corrugation.MAGNETISM. Imaging and control of ferromagnetism in LaMnO₃/SrTiO₃ heterostructures.Chirality of electrodeposits grown in a magnetic field.Bubble formation at a gas-evolving microelectrode.Ambipolar ferromagnetism by electrostatic doping of a manganite.Unexpected magnetism in a dielectric oxideExceptional room-temperature plasticity in amorphous alumina nanotubes fabricated by magnetic hard anodisationDesign of compensated ferrimagnetic Heusler alloys for giant tunable exchange biasEffect of Tetraalkylammonium Cations on Gas Coalescence at a Hydrogen-Evolving MicroelectrodeInteraction of magnetic nanoparticles with phospholipid films adsorbed at a liquid/liquid interfaceCubicMn2GaThin Films: Crossing the Spin Gap with RutheniumHigh-Field Magnetization Behavior of Mn-Al-C AlloysNew permanent magnets; manganese compoundsLength-dependent pathogenic effects of nickel nanowires in the lungs and the peritoneal cavityMagnetic Structuring of ElectrodepositsRevisiting magnetism of capped Au and ZnO nanoparticles: Surface band structure and atomic orbital with giant magnetic momentMagnetic Noise in Structured Hard MagnetsMagnetism of nanocrystalline (La0.5Sr0.5)TiO3doped with 3d cationsA spin of their ownOverzealous use of decimal places has wrong kind of impactMagnetic Field Effect on Autocatalysis: Ag and Cu in Concentrated Nitric AcidMagnetism's ticklish giantDonor impurity band exchange in dilute ferromagnetic oxidesSpin electronics: Thin skins for magnetic sensitivityAnisotropic Ferromagnetism in Substituted Zinc OxideCharge-ordering in oxidesFerromagnetism of a graphite nodule from the Canyon Diablo meteoriteElectron Localization in Mixed-Valence ManganitesMagnetocrystalline anisotropy of 3d-4fintermetallics: Breakdown of the linear theoryTransport properties ofBi2Sr2Can−1CunO2n+4thin filmsGiant energy product in nanostructured two-phase magnetsMagnetization andFe57hyperfine fields inY2Fe17Z3−δ(Z=H, C, or N) interstitial compoundsGiant transverse hysteresis in an asperomagnetMagnetization of a Dy(Fe11Ti) single crystal
P50
Q30478049-F3D1D616-1E38-422B-91BA-A78F8875A72EQ36155127-63F71F3D-085F-47DE-B719-EBDF99E34E3DQ36355866-0E9896A5-14E9-49C5-9C19-531BDDA1C4A3Q42363719-4433C2E6-75FC-4EB1-B3B5-C970E9CA3333Q42875602-AB05BD0B-2E4F-4BF4-8E36-5B6774781121Q48698126-EF813277-D0C1-4597-9BA4-3D18412F1B83Q51669178-64AF7F98-1BFF-4E00-BBF1-3183286EAAC0Q51809514-4DE5A210-DADD-4102-BABA-0C19D7566FB7Q51994830-57C6E37D-B7A6-4708-9090-AA9C2AA1D299Q53072158-950FBAA5-56BC-4C2E-AF53-AD5ABFAB7A0BQ55339996-842DAB69-F69E-428A-9D81-4C497E6AC471Q59059542-DCD411E0-DB48-43E6-BB2D-67E66BB4637DQ59620001-BABDCB26-4442-4B4B-94CC-BF0BAF2C732FQ59620046-ED5C9591-C02D-41B5-9717-F2C63549822CQ59620063-C3B03516-176D-43EA-B879-CCA1776C10B1Q59620077-646BA3C4-6230-4108-BFD0-3391F1126B03Q59620117-B5616060-53BF-4123-A378-918C6D64FDB5Q59620137-5DC21232-C415-48CD-BE7E-F152E2AEDEB9Q59620160-2D81A067-3340-4359-AD8B-BEA2EB0F9995Q59620293-A4042807-4ABB-46C5-8F6F-50EAAC1DA7A0Q59620433-F312EC00-95F4-4E47-A84A-D95AA2FAE83AQ59620472-F237F6A6-EA9E-4928-B079-11F239315CFAQ59620528-5557EED2-BC42-44E7-8F0D-DACD76ECEFCEQ59620552-36092817-B970-472C-AF81-47591EE8176DQ59620604-E9925C2E-4DBB-41C5-B8E9-21B1DE7CD3BAQ59620653-4A8A65A7-1133-4C23-9665-BB729D175533Q59620755-32179AA9-4452-4F29-8271-6B40042EA754Q59620770-F9CE349F-7DFD-46CC-86B0-62EB9A86E483Q59620777-A467B122-CD14-486A-9E80-CEC80D69A4EEQ59620805-1B6D19DA-A5E5-4AD0-926D-BC3395D9C245Q59620812-8FC5FA82-8D12-49C9-B2EA-892250C8C8C1Q59620814-8BA729E9-80B9-4586-ACE8-082A8C213F78Q59620852-10BB58DC-9885-435E-ABB7-391CA0FE4AE7Q59620916-2318C3BF-6623-43A0-8A0E-BA6E98F9C428Q59620948-ED182E42-8324-4310-9AE0-32BD50970634Q59620961-52064F5C-6E9B-4721-93CD-3E64F538D3E8Q59620969-FE979F4C-99D2-4C4C-BC38-072EA7E39010Q59620995-2B569831-E05B-4689-AB9E-81EF66BA6275Q59621024-855DD5B0-5996-4CA5-A57D-D7BFECA68B45Q59621033-773879C1-D36B-4C71-ACE5-12CC6023C831
P50
description
British physicist
@en
British physicist
@en-ca
British physicist
@en-gb
Brits natuurkundige
@nl
Suurbritannia füüsik
@et
fisiceoir as Béal Feirste
@ga
fisico britannico
@it
fisikari britainiarra
@eu
fizician britanic
@ro
fizikan britanik
@sq
name
Michael Coey
@ast
Michael Coey
@ca
Michael Coey
@de
Michael Coey
@en
Michael Coey
@es
Michael Coey
@fr
Michael Coey
@hu
Michael Coey
@it
Michael Coey
@nl
Michael Coey
@sl
type
label
Michael Coey
@ast
Michael Coey
@ca
Michael Coey
@de
Michael Coey
@en
Michael Coey
@es
Michael Coey
@fr
Michael Coey
@hu
Michael Coey
@it
Michael Coey
@nl
Michael Coey
@sl
altLabel
John Michael David Coey
@en
Michael Coey
@en
prefLabel
Michael Coey
@ast
Michael Coey
@ca
Michael Coey
@de
Michael Coey
@en
Michael Coey
@es
Michael Coey
@fr
Michael Coey
@hu
Michael Coey
@it
Michael Coey
@nl
Michael Coey
@sl
P69
P1006
P214
P244
P268
P269
P2732
P1006
P101
P106
P1153
56142584700
P1412
P19
P2070
michael-coey-11244
P21
P213
0000 0001 1658 984X