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Title: Ca14AlBi11—a new Zintl phase from earth-abundant elements with a great potential for thermoelectric energy conversion

Journal Article · · Materials Today Advances
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Sponsoring Organization:
USDOE
Grant/Contract Number:
SC0008885
OSTI ID:
1650234
Alternate ID(s):
OSTI ID: 1696964
Journal Information:
Materials Today Advances, Journal Name: Materials Today Advances Journal Issue: C Vol. 7; ISSN 2590-0498
Publisher:
ElsevierCopyright Statement
Country of Publication:
United Kingdom
Language:
English

References (44)

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Zintl Phases: Transitions between Metallic and Ionic Bonding journal September 1973
Structure and Ferromagnetism of the Rare-Earth Zintl Compounds:  Yb 14 MnSb 11 and Yb 14 MnBi 11 journal November 1998
Unusual Sb-Sb bonding in high temperature thermoelectric materials journal October 2008
Yb 14 MgBi 11 : structure, thermoelectric properties and the effect of the structure on low lattice thermal conductivity journal January 2017
Five Ternary Zintl Phases in the Systems Alkali-Metal–Indium–Bismuth journal February 2002
Traversing the Metal-Insulator Transition in a Zintl Phase: Rational Enhancement of Thermoelectric Efficiency in Yb 14 Mn 1− x Al x Sb 11 journal September 2008
Covalent radii revisited journal January 2008
SHELXT – Integrated space-group and crystal-structure determination journal January 2015
From the Ternary Phase Ca 14 Zn 1+δ Sb 11 (δ ≈ 0.4) to the Quaternary Solid Solutions Ca 14– x RE x ZnSb 11 (RE = La–Nd, Sm, Gd, x ≈ 0.9). A Tale of Electron Doping via Rare-Earth Metal Substitutions and the Concomitant Structural Transformations journal June 2019
On the Extended Series of Quaternary Zintl Phases Ca13REMnSb11 (RE = La-Nd, Sm, Gd-Dy): On the Extended Series of Quaternary Zintl Phases Ca13REMnSb11 (RE = La-Nd, Sm, Gd-Dy) journal May 2016
Zintl phases with group 15 elements and the transition metals: A brief overview of pnictides with diverse and complex structures journal February 2019
Synthesis and structural characterization of the new Zintl phases Ba3Cd2P4 and Ba2Cd2P3. Rare example of small gap semiconducting behavior with negative thermopower within the range 300 ​K–700 ​K journal September 2020
OLEX2 : a complete structure solution, refinement and analysis program journal January 2009
High-Pressure Synthesis, Crystal Structures, and Properties of Perovskite-like BiAlO 3 and Pyroxene-like BiGaO 3 journal January 2006
Full-potential calculations of the electronic and optical properties for 1T and 2H phases of TaS2 and TaSe2 journal April 2005
Non-stoichiometric compositions arising from synergistic electronic and size effects. Synthesis, crystal chemistry and electronic properties of A 14 Cd 1+x Pn 11 compounds (0 ≤ x ≤ 0.3; A = Sr, Eu; Pn = As, Sb) journal January 2015
Synthesis, Structure and Vibrational Spectra of Ba14InP11 journal September 1996
A local exchange-correlation potential for the spin polarized case. i journal July 1972
Five new ternary indium-arsenides discovered. Synthesis and structural characterization of the Zintl phases Sr3In2As4, Ba3In2As4, Eu3In2As4, Sr5In2As6 and Eu5In2As6 journal October 2019
Synthesis, and Crystal and Electronic Structures, of the Titanium-Rich Bismuthides AE 3 Ti 8 Bi 10 ( AE = Sr, Ba, Eu) journal September 2018
Yb 14 MgSb 11 and Ca 14 MgSb 11 —New Mg-Containing Zintl Compounds and Their Structures, Bonding, and Thermoelectric Properties journal December 2014
On the effect of Ga and In substitutions in the Ca 11 Bi 10 and Yb 11 Bi 10 bismuthides crystallizing in the tetragonal Ho 11 Ge 10 structure type journal February 2018
A 14 MgBi 11 ( A = Ca, Sr, Eu): Magnesium Bismuth Based Zintl Phases as Potential Thermoelectric Materials journal August 2017
Ca3AlSb3 und Ca5Al2Bi6, zwei neue Zintlphasen mit kettenförmigen Anionen / New Zintl Phases with Chain Anions: On Ca3AlSb3 and Ca5Al2Bi6 journal June 1984
Synthesis, Crystal and Electronic Structure of the Titanium Bismuthides Sr 5 Ti 12 Bi 19+ x , Ba 5 Ti 12 Bi 19+ x , and Sr 5- δ Eu δ Ti 12 Bi 19+ x ( x ≈ 0.5-1.0; δ ≈ 2.4, 4.0) : Synthesis, Crystal and Electronic Structure of the Titanium Bismuthides Sr5Ti12Bi19+x, Ba5Ti12Bi19+x, and Sr5-δEuδTi12Bi19+x (x ≈ 0.5-1.0; δ ≈ 2.4, 4. journal March 2018
Crystal orbital Hamilton populations (COHP): energy-resolved visualization of chemical bonding in solids based on density-functional calculations journal August 1993
Crystal chemistry and magnetic properties of the solid solutions Ca 14−x RE x MnBi 11 (RE = La–Nd, Sm, and Gd–Ho; x ≈ 0.6–0.8) journal January 2017
Synthesis, Structure, and Magnetic Properties of the Rare-Earth Zintl Compounds Eu 14 MnPn 11 and Eu 14 InPn 11 (Pn = Sb, Bi) journal October 1997
Zintl Chemistry for Designing High Efficiency Thermoelectric Materials journal February 2010
Yb 14 MnSb 11 :  New High Efficiency Thermoelectric Material for Power Generation journal April 2006
Crystal structure refinement with SHELXL journal January 2015
Synthesis and structure of Sr14Zn1+As11 and Eu14Zn1+As11 (x ≤ 0.5). New members of the family of pnictides isotypic with Ca14AlSb11, exhibiting a new type of structural disorder journal December 2019
Improved Thermoelectric Performance in Yb 14 Mn 1− x Zn x Sb 11 by the Reduction of Spin-Disorder Scattering journal May 2008
Synthesis and Structural Characterization of Ca14NbxIn1-xAs11 (x ≈ 0.85) journal October 2016
Electronic structure and transport in thermoelectric compounds AZn2Sb2 (A = Sr, Ca, Yb, Eu) journal January 2010
Hydride assisted synthesis of the high temperature thermoelectric phase: Yb 14 MgSb 11 journal October 2019
The remarkable crystal chemistry of the Ca14AlSb11 structure type, magnetic and thermoelectric properties journal March 2019
Darstellung und Struktur der Verbindung Ca14AlSb11 journal December 1984
Enhanced High-Temperature Thermoelectric Performance of Yb 14– x Ca x MnSb 11 journal April 2012
Complex thermoelectric materials journal February 2008
Are Ba 11 Cd 6 Sb 12 and Sr 11 Cd 6 Sb 12 Zintl phases or not? A density-functional theory study journal October 2008
Structure, Magnetism, and Thermoelectric Properties of Magnesium-Containing Antimonide Zintl Phases Sr 14 MgSb 11 and Eu 14 MgSb 11 journal January 2017
Synthesis, crystal structure and physical properties of the solid solutions Ca 14– x RE x CdSb 11 ( RE  = La–Nd, Sm, Gd–Yb, x  ≈ 0.85 ± 0.15) journal June 2019

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