Discovery-Synthesis, Design, and Prediction of Chalcogenide Phases

Kanatzidis, Mercouri G.

doi:10.1021/acs.inorgchem.7b00188

Title: Discovery-Synthesis, Design, and Prediction of Chalcogenide Phases

Abstract

The discovery of new materials and their efficient syntheses is a fundamental goal of chemistry. A related objective is to identify foundational and rational approaches to enhance the art of synthesis by combining the exquisite predictability of organic synthesis with the high yields of solid-state chemistry. In contrast to so-called solid-state methods, inorganic syntheses in liquid fluxes permit bond formation, framework assembly, and crystallization at lower temperatures because of facile diffusion and chemical reactions with and within the flux itself. The fluxes are bona fide solvents similar to conventional organic or aqueous solvents. Such reactions can produce a wide range of materials, often metastable, from oxides to intermetallics, but typically the formation mechanisms are poorly understood. This article discusses how one can design, perform, observe, understand, and engineer the formation of compounds from inorganic melts. The focus is also design concepts such as "dimensional reduction", "phase homologies", and "panoramic synthesis", and their broad applicability. When well-defined building blocks are present and stable in the reaction, prospects for increased structural diversity and product control increase substantially. Common structural motifs within these materials systems may be related to structural precursors in the melt that may be controlled by tuning reaction conditions andmore »« less

Authors:

^[1]

Northwestern Univ., Evanston, IL (United States). Dept. of Chemistry; Argonne National Lab. (ANL), Argonne, IL (United States). Materials Science Division

Publication Date:: Thu Mar 09 00:00:00 EST 2017

Research Org.:: Argonne National Laboratory (ANL), Argonne, IL (United States)

Sponsoring Org.:: National Science Foundation (NSF); U.S. Department of Homeland Security; USDOE Office of Science (SC), Basic Energy Sciences (BES)

OSTI Identifier:: 1352876

Grant/Contract Number:: AC02-06CH11357

Resource Type:: Accepted Manuscript

Journal Name:: Inorganic Chemistry

Additional Journal Information:: Journal Volume: 56; Journal Issue: 6; Journal ID: ISSN 0020-1669

Publisher:: American Chemical Society (ACS)

Country of Publication:: United States

Language:: English

Subject:: 37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY; 36 MATERIALS SCIENCE

Citation Formats


                    Kanatzidis, Mercouri G. Discovery-Synthesis, Design, and Prediction of Chalcogenide Phases.  United States: N. p., 2017. 
Web.  doi:10.1021/acs.inorgchem.7b00188.

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                    Kanatzidis, Mercouri G. Discovery-Synthesis, Design, and Prediction of Chalcogenide Phases.  United States.  https://doi.org/10.1021/acs.inorgchem.7b00188

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                    Kanatzidis, Mercouri G. Thu .  
"Discovery-Synthesis, Design, and Prediction of Chalcogenide Phases".  United States.  https://doi.org/10.1021/acs.inorgchem.7b00188.  https://www.osti.gov/servlets/purl/1352876.

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@article{osti_1352876,

  title        = {Discovery-Synthesis, Design, and Prediction of Chalcogenide Phases},

  author       = {Kanatzidis, Mercouri G.},

  abstractNote = {The discovery of new materials and their efficient syntheses is a fundamental goal of chemistry. A related objective is to identify foundational and rational approaches to enhance the art of synthesis by combining the exquisite predictability of organic synthesis with the high yields of solid-state chemistry. In contrast to so-called solid-state methods, inorganic syntheses in liquid fluxes permit bond formation, framework assembly, and crystallization at lower temperatures because of facile diffusion and chemical reactions with and within the flux itself. The fluxes are bona fide solvents similar to conventional organic or aqueous solvents. Such reactions can produce a wide range of materials, often metastable, from oxides to intermetallics, but typically the formation mechanisms are poorly understood. This article discusses how one can design, perform, observe, understand, and engineer the formation of compounds from inorganic melts. The focus is also design concepts such as "dimensional reduction", "phase homologies", and "panoramic synthesis", and their broad applicability. When well-defined building blocks are present and stable in the reaction, prospects for increased structural diversity and product control increase substantially. Common structural motifs within these materials systems may be related to structural precursors in the melt that may be controlled by tuning reaction conditions and composition. Stabilization of a particular building block is often accomplished with tuning of the flux composition, which controls the Lewis basicity and redox potential. In such tunable and dynamic fluxes, the synthesis can be directed toward new materials. Using complementary techniques of in situ X-ray diffraction, we can create time-dependent maps of reaction space and probe the mobile species present in melts. Lastly, certain thoughts toward the ultimate goal of targeted materials synthesis by controlling inorganic melt chemistry are discussed.},

  doi          = {10.1021/acs.inorgchem.7b00188},

  journal      = {Inorganic Chemistry},

  number       = 6,

  volume       = 56,

  place        = {United States},

  year         = {Thu Mar 09 00:00:00 EST 2017},

  month        = {Thu Mar 09 00:00:00 EST 2017}

}

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Sb and Se Substitution in CsBi ₄ Te ₆ : The Semiconductors CsM ₄ Q ₆ (M = Bi, Sb; Q = Te, Se), Cs ₂ Bi ₁₀ Q ₁₅ , and CsBi ₅ Q ₈
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Chung, Duck Young; Uher, Ctirad; Kanatzidis, Mercouri G.
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Hsu, Kuei-Fang; Chung, Duck-Young; Lal, Sangeeta
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New Members of the Homologous Series A _m [M ₆ Se ₈ ] _m [M ₅₊ _n Se ₉₊ _n ]: The Quaternary Phases A ₁ _- _x M‘ ₃ _- _x Bi ₁₁₊ _x Se ₂₀ and A ₁₊ _x M‘ ₃ _- ₂ _x Bi ₇₊ _x Se ₁₄ (A = K, Rb, Cs; M‘ = Sn, Pb)
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Electronics and optoelectronics of two-dimensional transition metal dichalcogenides journal, November 2012

Evidence of the Existence of Magnetism in Pristine VX 2 Monolayers (X = S, Se) and Their Strain-Induced Tunable Magnetic Properties journal, January 2012

Iron displacements and magnetoelastic coupling in the antiferromagnetic spin-ladder compound BaFe 2 Se 3 journal, November 2011

Orbital-selective magnetism in the spin-ladder iron selenides Ba 1 − x K x Fe 2 Se 3 journal, May 2012

Magnetic states of the two-leg-ladder alkali metal iron selenides A Fe 2 Se 3 journal, January 2013

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Coordination chemistry of heavy polychalcogenide ligands
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APSe ₆ (A = K, Rb, and Cs): Polymeric Selenophosphates with Reversible Phase-Change Properties
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Quantum Spin Hall Effect and Topological Phase Transition in HgTe Quantum Wells
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Chemists join in
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Two-Dimensional Nanosheets Produced by Liquid Exfoliation of Layered Materials
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MoS2 and WS2 Analogues of Graphene
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Electronics and optoelectronics of two-dimensional transition metal dichalcogenides
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Evidence of the Existence of Magnetism in Pristine VX ₂ Monolayers (X = S, Se) and Their Strain-Induced Tunable Magnetic Properties
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Iron displacements and magnetoelastic coupling in the antiferromagnetic spin-ladder compound BaFe $_{2}$ Se $_{3}$
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Orbital-selective magnetism in the spin-ladder iron selenides Ba $_{1 - x}$ K $_{x}$ Fe $_{2}$ Se $_{3}$
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Magnetic states of the two-leg-ladder alkali metal iron selenides $A$ Fe $_{2}$ Se $_{3}$
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Two new ternary lanthanide antimony chalcogenides: Yb4Sb2S11.25 and Tm4Sb2Se11.68 containing chalcogenide Q2− and dichalcogenide (Q2)2− anions
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Superconductivity in the iron selenide $K_{x} {Fe}_{2} {Se}_{2}$ $(0 \leq x \leq 1.0)$
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${KFe}_{2} {Se}_{2}$ is the Parent Compound of K-Doped Iron Selenide Superconductors
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Common Crystalline and Magnetic Structure of Superconducting $A_{2} {Fe}_{4} {Se}_{5}$ ( $A = K, Rb, Cs, Tl$ ) Single Crystals Measured Using Neutron Diffraction
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Electronic and magnetic phase diagram of β-Fe1.01Se with superconductivity at 36.7 K under pressure
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Synthesis and crystal structure of Cs2U3Se7
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Thermoelectric Properties of TlGdQ2 (Q = Se, Te) and Tl9GdTe6
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Thermoelectric Properties of Stoichiometric Compounds in the (SnTe) _x (Bi ₂ Te ₃ ) _y System
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