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Title: Mysterious SiB 3 : Identifying the Relation between α- and β-SiB 3

Journal Article · · ACS Omega
 [1];  [2];  [3]; ORCiD logo [1]; ORCiD logo [1];  [1];  [4];  [4];  [5]; ORCiD logo [6]; ORCiD logo [2]; ORCiD logo [1]
  1. Stockholm Univ. (Sweden)
  2. Augsburg Univ. (Germany)
  3. Chulalongkorn Univ., Bangkok (Thailand); Thailand Center of Excellence in Physics, Bangkok (Thailand)
  4. Linköping Univ. (Sweden)
  5. Tsinghua Univ., Beijing (China)
  6. Carnegie Mellon Univ., Pittsburgh, PA (United States)
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Binary silicon boride SiB3 has been reported to occur in two forms, as disordered and nonstoichiometric α-SiB3–x, which relates to the α-rhombohedral phase of boron, and as strictly ordered and stoichiometric β-SiB3. Similar to other boron-rich icosahedral solids, these SiB3 phases represent potentially interesting refractory materials. However, their thermal stability, formation conditions, and thermodynamic relation are poorly understood. Here, we map the formation conditions of α-SiB3–x and β-SiB3 and analyze their relative thermodynamic stabilities. α-SiB3–x is metastable (with respect to β-SiB3 and Si), and its formation is kinetically driven. Pure polycrystalline bulk samples may be obtained within hours when heating stoichiometric mixtures of elemental silicon and boron at temperatures 1200–1300 °C. At the same time, α-SiB3–x decomposes into SiB6 and Si, and optimum time-temperature synthesis conditions represent a trade-off between rates of formation and decomposition. The formation of stable β-SiB3 was observed after prolonged treatment (days to weeks) of elemental mixtures with ratios Si/B = 1:1–1:4 at temperatures 1175–1200 °C. The application of high pressures greatly improves the kinetics of SiB3 formation and allows decoupling of SiB3 formation from decomposition. Quantitative formation of β-SiB3 was seen at 1100 °C for samples pressurized to 5.5–8 GPa. β-SiB3 decomposes peritectoidally at temperatures between 1250 and 1300 °C. The highly ordered nature of β-SiB3 is reflected in its Raman spectrum, which features narrow and distinct lines. In contrast, the Raman spectrum of α-SiB3–x is characterized by broad bands, which show a clear relation to the vibrational modes of isostructural, ordered B6P. The detailed composition and structural properties of disordered α-SiB3–x were ascertained by a combination of single-crystal X-ray diffraction and 29Si magic angle spinning NMR experiments. Notably, the compositions of polycrystalline bulk samples (obtained at T ≤ 1200 °C) and single crystal samples (obtained from Si-rich molten Si–B mixtures at T > 1400 °C) are different, SiB2.93(7) and SiB2.64(2), respectively. The incorporation of Si in the polar position of B12 icosahedra results in highly strained cluster units. This disorder feature was accounted for in the refined crystal structure model by splitting the polar position into three sites. The electron-precise composition of α-SiB3–x is SiB2.5 and corresponds to the incorporation of, on average, two Si atoms in each B12 icosahedron. Accordingly, α-SiB3–x constitutes a mixture of B10Si2 and B11Si clusters. The structural and phase stability of α-SiB3–x were explored using a first-principles cluster expansion. The most stable composition at 0 K is SiB2.5, which however is unstable with respect to the decomposition β-SiB3 + Si. Modeling of the configurational and vibrational entropies suggests that α-SiB3–x only becomes more stable than β-SiB3 at temperatures above its decomposition into SiB6 and Si. Hence, we conclude that α-SiB3–x is metastable at all temperatures. Density functional theory electronic structure calculations yield band gaps of similar size for electron-precise α-SiB2.5 and β-SiB3, whereas α-SiB3 represents a p-type conductor.

Research Organization:
Carnegie Mellon Univ., Pittsburgh, PA (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Basic Energy Sciences (BES); German Research Foundation (DFG); Swedish Research Council (SRC); National Science Foundation (NSF)
Grant/Contract Number:
SC0014506
OSTI ID:
1574460
Journal Information:
ACS Omega, Vol. 4, Issue 20; ISSN 2470-1343
Publisher:
American Chemical Society (ACS)Copyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 8 works
Citation information provided by
Web of Science

References (74)

Icosahedral Boron‐Rich Solids journal January 1987
Superhard boron-rich borides and studies of the BCN system journal May 1996
Some crystallography, chemistry, physics, and thermodynamics of B12O2, B12P2, B12As2, and related alpha-boron type crystals journal September 2014
Melt growth and properties of B6P crystals journal January 1983
Icosahedral packing of B12 icosahedra in boron suboxide (B6O) journal January 1998
Predicted phase diagram of boron-carbon-nitrogen journal April 2016
Unusual properties of icosahedral boron-rich solids journal September 2006
Icosahedral superstrength at the nanoscale journal June 2018
Recent Advances in Superhard Materials journal July 2016
Fundamental studies on the structures and properties of some B 12 -based crystals journal December 1995
Structure and bonding in boron carbide: The invincibility of imperfections journal January 2007
Boron: Elementary Challenge for Experimenters and Theoreticians journal November 2009
Electron Deformation Density in Rhombohedral α-Boron journal September 2001
The electronic structure of an icosahedron of boron atoms
  • Longuet-Higgins, Hugh Christopher; Roberts, M. De V.
  • Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, Vol. 230, Issue 1180, p. 110-119 https://doi.org/10.1098/rspa.1955.0115
journal June 1955
The structural significance of the number of skeletal bonding electron-pairs in carboranes, the higher boranes and borane anions, and various transition-metal carbonyl cluster compounds journal January 1971
Skeletal electron counting in cluster species. Some generalisations and predictions journal June 1972
Boron carbide: Consistency of components, lattice parameters, fine structure and chemical composition makes the complex structure reasonable journal October 2016
Rhombohedral boron subnitride, B 13 N 2 , by X-ray powder diffraction journal August 2007
First-principles study of configurational disorder in B 4 C using a superatom-special quasirandom structure method journal July 2014
Thermodynamic consideration and ground-state search of icosahedral boron subselenide B 12 ( B 1 x Se x ) 2 from a first-principles cluster expansion journal May 2018
Ueber die beiden Borsiliciumverbindungen SiB3 und SiB6 journal May 1900
The Crystal Structure of B2.89Si. journal January 1962
1,2-Dimethyl-1,2-disila-closo-dodecaborane(12), a silicon analog of an o-carborane: synthesis; x-ray crystal structure; NMR, vibrational, and photoelectron spectra; bonding journal May 1993
Microalloying Boron Carbide with Silicon to Achieve Dramatically Improved Ductility journal November 2014
Improved Ductility of B 12 Icosahedra-based Superhard Materials through Icosahedral Slip journal May 2017
Binary Phase Diagrams and Thermodynamic Properties of Silicon and Essential Doping Elements (Al, As, B, Bi, Ga, In, N, P, Sb and Tl) journal June 2017
The Silicon-Boron System journal July 1960
On the boron-silicon reaction journal April 1961
The coexistence of silicon borides with boron-saturated silicon: Metastability of SiB 3 journal July 1998
Stabilization of β-SiB3 from Liquid Ga: A Boron-Rich Binary Semiconductor Resistant to High-Temperature Air Oxidation journal April 2003
Electron-Deficient Bonding in ⧫ Rhomboid Rings journal October 2004
Structure and Bonding of Zinc Antimonides: Complex Frameworks and Narrow Band Gaps journal August 2005
Electron-poor antimonides: complex framework structures with narrow band gaps and low thermal conductivity journal January 2010
The Metal Flux: A Preparative Tool for the Exploration of Intermetallic Compounds journal November 2005
Large-volume multianvil cells designed for chemical synthesis at high pressures journal March 2010
The crystal structure of SiB6 journal June 1986
Correction of intensities for preferred orientation in powder diffractometry: application of the March model journal August 1986
Crystallographic Computing System JANA2006: General features journal January 2014
Inhomogeneous Electron Gas journal November 1964
Self-Consistent Equations Including Exchange and Correlation Effects journal November 1965
Projector augmented-wave method journal December 1994
Efficiency of ab-initio total energy calculations for metals and semiconductors using a plane-wave basis set journal July 1996
Efficient iterative schemes for ab initio total-energy calculations using a plane-wave basis set journal October 1996
Generalized Gradient Approximation Made Simple journal October 1996
Special points for Brillouin-zone integrations journal June 1976
Improved tetrahedron method for Brillouin-zone integrations journal June 1994
Generalized cluster description of multicomponent systems journal November 1984
Automating first-principles phase diagram calculations journal August 2002
The alloy theoretic automated toolkit: A user guide journal December 2002
First-principles calculations of the ferroelastic transition between rutile-type and CaCl 2 -type SiO 2 at high pressures journal October 2008
First principles phonon calculations in materials science journal November 2015
First-Principles Determination of the Soft Mode in Cubic ZrO 2 journal May 1997
A new form of boron silicide, B4Si journal August 1960
Formation and Structure of SiB4 journal October 1960
A New Silicon Boride, SiB4 journal February 1960
PREPARATION OF TETRABORON SILICIDE, B 4 Si journal February 1960
Preparation of high purity SiB4 by solid-state reaction between Si and B journal January 1989
The boron-silicon solid solution: A structural study of the SiB∼36 composition journal April 1981
Solid Solubility and Diffusion Coefficients of Boron in Silicon journal January 1969
The Surface of Nanoparticle Silicon as Studied by Solid-State NMR journal December 2012
Algorithm for generating derivative structures journal June 2008
Phase transitions of boron carbide: Pair interaction model of high carbon limit journal September 2015
Theoretical study of the structure of boron carbide B 13 C 2 journal August 2014
Local Atomic Arrangements and Band Structure of Boron Carbide journal April 2018
Thermodynamic stability and properties of boron subnitrides from first principles journal February 2017
Raman effect in icosahedral boron-rich solids journal February 2010
Lattice Dynamics of Icosahedral α -Boron under Pressure journal January 1997
Boron carbide structure by Raman spectroscopy journal September 1989
Structure of icosahedral borides by Raman spectroscopy conference January 1991
Isotope dependencies of Raman spectra of B 12 As 2 , B 12 P 2 , B 12 O 2 , and B 1 2 + x C 3 x : Bonding of intericosahedral chains journal August 1997
First principles calculations of the vibrational properties of icosahedral solid boron oxygen B12O2 journal January 2011
Lattice vibrations of the icosahedral solid α-boron journal August 1991
Phonon states of B 12 P 2 crystals: Ab initio calculation and experiment journal November 2017
Association of broad icosahedral Raman bands with substitutional disorder in SiB 3 and boron carbide journal February 1998

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