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Title: High-Temperature Zero Thermal Expansion in HfFe[subscript 2+delta] from Added Ferromagnetic Paths

Journal Article · · Chem. Mater.

Research Organization:
Argonne National Lab. (ANL), Argonne, IL (United States). Advanced Photon Source (APS)
Sponsoring Organization:
DOE - Office Of Science; FOREIGN
OSTI ID:
1902398
Journal Information:
Chem. Mater., Vol. 34, Issue (21)
Country of Publication:
United States
Language:
ENGLISH

References (45)

A century of zero expansion journal July 1999
Negative thermal expansion materials † journal January 1999
Negative thermal expansion journal January 2005
Negative thermal expansion in functional materials: controllable thermal expansion by chemical modifications journal January 2015
Thermal-expansion offset for high-performance fuel cell cathodes journal March 2021
Thermally stable and highly efficient red-emitting Eu3+-doped Cs3GdGe3O9 phosphors for WLEDs: non-concentration quenching and negative thermal expansion journal February 2021
Thermal Enhancement of Upconversion by Negative Lattice Expansion in Orthorhombic Yb 2 W 3 O 12 journal November 2019
Near-zero thermal expansion of ZrW2O8/Al–Si composites with three dimensional interpenetrating network structure journal April 2021
Selective interfacial bonding in Al(Si)–diamond composites and its effect on thermal conductivity journal December 2006
Zero Thermal Expansion in PbTiO 3 -Based Perovskites journal January 2008
Thermal Expansion, Ferroelectric and Magnetic Properties in (1 − x )PbTiO 3x Bi(Ni 1/2 Ti 1/2 )O 3 journal February 2010
Negative and zero thermal expansion in α-(Cu2−xZnx)V2O7 solid solutions journal January 2020
Systematic and Controllable Negative, Zero, and Positive Thermal Expansion in Cubic Zr 1– x Sn x Mo 2 O 8 journal August 2013
Sc1.5Al0.5W3O12 Exhibits Zero Thermal Expansion between 4 and 1400 K journal May 2021
Zero Thermal Expansion and Ferromagnetism in Cubic Sc 1– x M x F 3 (M = Ga, Fe) over a Wide Temperature Range journal September 2014
Adjustable Zero Thermal Expansion in Antiperovskite Manganese Nitride journal September 2011
Zero thermal expansion in NaZn 13 -type La(Fe,Si) 13 compounds journal January 2015
Zero thermal expansion with high Curie temperature in Ho 2 Fe 16 Cr alloy journal January 2016
Ultrawide Temperature Range Super-Invar Behavior of R2(Fe,Co)17 Materials ( R = Rare Earth) journal July 2021
Thermal expansion anomalies and spontaneous magnetostriction in R2Fe17Cx intermetallic compounds journal December 1991
Zero Thermal Expansion Achieved by an Electrolytic Hydriding Method in La(Fe,Si) 13 Compounds journal December 2016
Experimental studies of hyperfine interactions and magnetization in HfFe2 journal September 1976
Structure and stability of Laves phases part II—structure type variations in binary and ternary systems journal January 2005
Atomic Radii and Interatomic Distances in Metals journal March 1947
Ferromagnetism in the Laves Phase Compound Fe 2+ x Hf 1- x Annealed at 1000°C journal September 1970
Thermodynamic assessment of the Fe–Hf binary system journal May 2008
Negative thermal expansion in (Sc,Ti)Fe 2 induced by an unconventional magnetovolume effect journal January 2020
Controllable thermal expansion and magnetic structure in Er 2 (Fe,Co) 14 B intermetallic compounds journal January 2019
A case of multifunctional intermetallic compounds: negative thermal expansion coupling with magnetocaloric effect in (Gd,Ho)(Co,Fe) 2 journal January 2019
Effect of Si substitution in ferromagnetic Pr 2 Fe 17 : a magnetocaloric material with zero thermal expansion operative at high temperature journal January 2019
Zero Thermal Expansion in Magnetic and Metallic Tb(Co,Fe) 2 Intermetallic Compounds journal January 2018
Zero thermal expansion in a pure-form antiperovskite manganese nitride journal March 2009
Magnetovolume Effects and Invar Characters of (Zr 1- x Nb x )Fe 2 journal November 1979
Negative Thermal Expansion in (Hf,Ti)Fe2 Induced by the Ferromagnetic and Antiferromagnetic Phase Coexistence journal April 2019
Good comprehensive performance of Laves phase Hf1-Ta Fe2 as negative thermal expansion materials journal December 2018
Structure, Magnetism, and Tunable Negative Thermal Expansion in (Hf,Nb)Fe 2 Alloys journal August 2017
Magnetic Properties of the (Sc 1- x Ti x )Fe 2 System Having Two Magnetic States with Different Degrees of Localization journal March 1986
Crystal Structures and Magnetic Properties of the Intermetallic Compound Fe 2 Zr journal October 1968
Local magnetic properties of the Fe2Ti Laves phase journal February 1995
Low Thermal Expansion Modulated by Off-Stoichiometric Effect in Nonstoichiometric Laves Phase Hf0.87Ta0.13Fe2+x Compounds journal November 2019
Giant negative thermal expansion in Ge-doped anti-perovskite manganese nitrides journal December 2005
Giant Negative Thermal Expansion in NaZn 13 -Type La(Fe, Si, Co) 13 Compounds journal July 2013
The Origin of the `Invar' Effect journal August 1963
Zero-point spin fluctuations and the magnetovolume effect in itinerant-electron magnetism journal May 1995
Generalized Gradient Approximation Made Simple journal October 1996