PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
27694036-3	2016	With this approach, the ratio of orbital to spin magnetic moments for the Fe atoms in a single L10 ordered FePt nanoparticle is determined to be ml/ms=0.08+-0.02.	Iron	74-76	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	95-98	
21227589-2	2011	In the present study, the evaporation behavior and accompanying artifacts are examined for the super-cell lattice structure of L1(0) FePt, where alternating Fe and Pt planes exist in the [0 0 1] orientation.	Iron	133-135	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	127-132	
27561236-1	2016	We report on the out-of-plane thermal conductivities of tetragonal L10 FePt (001) easy-axis and cubic A1 FePt thin films via time-domain thermoreflectance over a temperature range from 133 K to 500 K. The out-of-plane thermal conductivity of the chemically ordered L10 phase with alternating Fe and Pt layers is ~23% greater than the thermal conductivity of the disordered A1 phase at room temperature and below.	Iron	71-73	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	67-70	
24198494-3	2012	Different nanostructures of iron-platinum alloy and chemically disordered iron-platinum L10 phase were obtained without annealing.	Iron	74-78	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	88-91	
16925422-1	2006	Herein we report the synthesis and properties of Fe(55)Pt(45) nanoparticles, both monodisperse and self-assembled into hexagonal close-packed and cubic arrays of 4.0 +/- 0.2 nm size in an L1(0) structure, obtained by a modified polyol process.	Iron	49-51	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	188-193	
21825468-0	2009	In situ x-ray reflectivity and grazing incidence x-ray diffraction study of L 1(0) ordering in (57)Fe/Pt multilayers.	Iron	99-101	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	76-82	
21825468-1	2009	In situ high temperature x-ray reflectivity and grazing incidence x-ray diffraction measurements in the energy dispersive mode are used to study the ordered face-centered tetragonal (fct) L 1(0) phase formation in [Fe(19 A)/Pt(25 A)]( x 10) multilayers prepared by ion beam sputtering.	Iron	215-217	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	188-194	
19162396-1	2009	A series of Fe(54+/-1)Pt(46+/-1) thin films have been sputter-deposited and annealed at various times and temperatures to facilitate the A1 to L1(0) polymorphic phase transformation.	Iron	12-14	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	143-148	
35602944-4	2022	In particular, we intentionally modify the Fe/Pt interface by inserting an ordered L10-FePt alloy interlayer.	Iron	43-45	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	83-86	
35269062-6	2022	In addition the (Fe/Pd)n coatings formed an L10 phase with a magnetic face-centered tetragonal-ordered structure after heat treatment.	Iron	17-19	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	44-47	
33108526-4	2020	It is found that the brittle-ductile transition from brittle regions to ductile regions with the transition metal elements Fe and Ru in L10-TiAl and B2-TiAl at the low concentration is approximately from 0 to 6.25 at.%.	Iron	123-125	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	136-139	
33108526-7	2020	Furthermore, the L10-TiAl and B2-TiAl at low concentration of Fe and Ru can increase the value of ELF, where Ge and Sn atoms become bigger at a high concentration in L10-TiAl and B2-TiAl.	Iron	62-64	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	17-20	
33108526-7	2020	Furthermore, the L10-TiAl and B2-TiAl at low concentration of Fe and Ru can increase the value of ELF, where Ge and Sn atoms become bigger at a high concentration in L10-TiAl and B2-TiAl.	Iron	62-64	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	166-169	
30132659-5	2018	Local tensile chemical strain and increasing magnetic moments of Fe atoms on the surface of the L10 core made a dominant contribution to the enhanced NTE behavior.	Iron	65-67	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	96-99	
33654328-1	2020	Materials such as L10 Fe-based alloys with perpendicular magnetic anisotropy derived from crystal structure have the potential to deliver higher thermal stability of magnetic memory elements compared to materials whose anisotropy is derived from surfaces and interfaces.	Iron	22-24	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	18-21	
29411604-0	2018	Fe Stabilization by Intermetallic L10-FePt and Pt Catalysis Enhancement in L10-FePt/Pt Nanoparticles for Efficient Oxygen Reduction Reaction in Fuel Cells.	Iron	0-2	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	34-37	
29411604-0	2018	Fe Stabilization by Intermetallic L10-FePt and Pt Catalysis Enhancement in L10-FePt/Pt Nanoparticles for Efficient Oxygen Reduction Reaction in Fuel Cells.	Iron	0-2	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	75-78	
29411604-2	2018	Using 8 nm FePt NPs as an example, we demonstrate that Fe can be stabilized more efficiently in a core/shell structured L10-FePt/Pt with a 5 A Pt shell.	Iron	11-13	immunoglobulin kappa variable 3-7 (non-functional)	Homo sapiens	120-123