Synthesis and Characterization of High-Energy Anti-Perovskite Compounds Cs3X[B12H12] Based on Cesium Dodecahydro-Closo-Borate with Molecular Oxoanions (X− = [NO3]−, [ClO3]− and [ClO4]−)

Aghaei Hakkak, Rouzbeh; Tiritiris, Ioannis; Schleid, Thomas

doi:10.3390/molecules29020382

Molecules

2024

DOI: 10.3390/molecules29020382

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Synthesis and Characterization of High-Energy Anti-Perovskite Compounds Cs3X[B12H12] Based on Cesium Dodecahydro-Closo-Borate with Molecular Oxoanions (X− = [NO3]−, [ClO3]− and [ClO4]−)

Rouzbeh Aghaei Hakkak,

Ioannis Tiritiris,

Thomas Schleid

Abstract: Three novel anti-perovskite compounds, formulated as Cs3X[B12H12] (X− = [NO3]−, [ClO3]−, and [ClO4]−), were successfully synthesized through the direct mixing of aqueous solutions containing Cs2[B12H12] and CsX (X−: [NO3]−, [ClO3]−, [ClO4]−), followed by isothermal evaporation. All three compounds crystallize in the orthorhombic space group Pnma, exhibiting relatively similar unit-cell parameters (e.g., Cs3[ClO3][B12H12]: a = 841.25(5) pm, b = 1070.31(6) pm, c = 1776.84(9) pm). The crystal structures were dete… Show more

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Cited by 3 publications

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New Energetic Dodecahydro-closo-Dodecaborates (N₂H₅)₄X₂[B₁₂H₁₂] (X = Cl and Br) with a Novel Hexagonal A₄B₂C Tunnel Structure

Aghaei Hakkak,

Schleid

2024

Chem. Mater.

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Two new tetrahydrazinium dihalide dodecahydrocloso-dodecaborates (N 2 H 5 ) 4 X 2 [B 12 H 12 ] (X − = Cl − and Br − ) were successfully synthesized via the direct reaction of dihydrazinium dodecahydro-closo-dodecaborate (N 2 H 4 ) 2 [B 12 H 12 ] with hydrazinium halides (N 2 H 5 )Cl and (N 2 H 5 )Br in aqueous media. The resulting isotypic compounds crystallize monoclinically in the space group P2 1 /c with similar unit-cell parameters (a = 681.98( 4) pm, b = 1025.38(6) pm, c = 1325.38(8) pm, and β = 98.393(3)°for the chloride and a = 686.05(4) pm, b = 1032.51(6) pm, c = 1316.04( 8), and β = 97.449(3)°for the bromide). Their crystal structure was elucidated using single-crystal X-ray diffraction techniques, unveiling a new unique arrangement for the composition A 4 B 2 C (A = hydrazinium, B = halide, and C = dodecahydro-closo-dodecaborate). This distinctive structural configuration sets it apart from compounds exhibiting other A 4 B 2 C arrangements, such as the spinel or double-perovskite structure type. In this new structure, the halide anions are coordinated by five hydrazinium cations, creating triangular bipyramidal polyhedra. These are interconnected via edge-and corner-sharing, resulting in the formation of hexagonal tunnels along the [100] direction. Within each of these tunnels, the [B 12 H 12 ] 2− clusters reside centrally located. Differential scanning calorimetry analyses demonstrate that these compounds contain a substantial amount of energy that is released during their thermal decomposition.

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New Energetic Dodecahydro-closo-Dodecaborates (N₂H₅)₄X₂[B₁₂H₁₂] (X = Cl and Br) with a Novel Hexagonal A₄B₂C Tunnel Structure

Aghaei Hakkak,

Schleid

2024

Chem. Mater.

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Intercluster B–H and B–B aggregation in iso- and trans-[B₂₀H₁₈]²⁻. Spherical aromaticity in borane dimers

Rodríguez-Kessler,

Muñoz-Castro

2024

Dalton Trans.

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Two New Energetic Hexagonal Anti-Perovskites (N2H5)3X[B12H12] · H2O (X− = [NO3]− and [ClO4]−): Crystal Structure, Vibrational Spectra, and Thermal Decomposition

Aghaei Hakkak,

Klapötke,

Schleid

2024

Crystals

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Two novel energetic anti-perovskite compounds with the chemical formula (N2H5)3X[B12H12] · H2O, where X− is either [NO3]− or [ClO4]−, were successfully synthesized. Both dodecahydro-closo-dodecaborates crystallize orthorhombically in the space group Cmc21, exhibiting relatively similar lattice parameters ((N2H5)3[NO3][B12H12] · H2O: a = 915.94(5), b = 1817.45(9), c = 952.67(5) pm, (N2H5)3[ClO4][B12H12] · H2O: a = 1040.51(6), b = 1757.68(9), c = 942.34(5) pm both for Z = 4). Their synthesis involved a two-step process: first, Cs2[B12H12] passed through a cation exchange column to yield the acidic form of the dodecahydro-closo-dodecaborate, (H3O)2[B12H12]. This aqueous solution was subsequently neutralized with hydrazinium hydroxide and mixed with the corresponding water-dissolved hydrazinium salt (nitrate or perchlorate). Characterization of the obtained crystals was performed by single-crystal X-ray diffraction and Raman spectroscopy as well as thermal analyses (TG-DTA and DSC). The crystal structure determinations revealed that both compounds adopt a hexagonal anti-perovskite structure, distorted by the presence of water molecules. These compounds containing oxidizing oxoanions demonstrate a remarkable ability to release large amounts of energy (almost 2100 J/g) upon thermal decomposition.

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Synthesis and Characterization of High-Energy Anti-Perovskite Compounds Cs3X[B12H12] Based on Cesium Dodecahydro-Closo-Borate with Molecular Oxoanions (X− = [NO3]−, [ClO3]− and [ClO4]−)

Cited by 3 publications

References 51 publications

New Energetic Dodecahydro-closo-Dodecaborates (N₂H₅)₄X₂[B₁₂H₁₂] (X = Cl and Br) with a Novel Hexagonal A₄B₂C Tunnel Structure

New Energetic Dodecahydro-closo-Dodecaborates (N₂H₅)₄X₂[B₁₂H₁₂] (X = Cl and Br) with a Novel Hexagonal A₄B₂C Tunnel Structure

Intercluster B–H and B–B aggregation in iso- and trans-[B₂₀H₁₈]²⁻. Spherical aromaticity in borane dimers

Two New Energetic Hexagonal Anti-Perovskites (N2H5)3X[B12H12] · H2O (X− = [NO3]− and [ClO4]−): Crystal Structure, Vibrational Spectra, and Thermal Decomposition

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Synthesis and Characterization of High-Energy Anti-Perovskite Compounds Cs3X[B12H12] Based on Cesium Dodecahydro-Closo-Borate with Molecular Oxoanions (X− = [NO3]−, [ClO3]− and [ClO4]−)

Cited by 3 publications

References 51 publications

New Energetic Dodecahydro-closo-Dodecaborates (N2H5)4X2[B12H12] (X = Cl and Br) with a Novel Hexagonal A4B2C Tunnel Structure

New Energetic Dodecahydro-closo-Dodecaborates (N2H5)4X2[B12H12] (X = Cl and Br) with a Novel Hexagonal A4B2C Tunnel Structure

Intercluster B–H and B–B aggregation in iso- and trans-[B20H18]2−. Spherical aromaticity in borane dimers

Two New Energetic Hexagonal Anti-Perovskites (N2H5)3X[B12H12] · H2O (X− = [NO3]− and [ClO4]−): Crystal Structure, Vibrational Spectra, and Thermal Decomposition

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New Energetic Dodecahydro-closo-Dodecaborates (N₂H₅)₄X₂[B₁₂H₁₂] (X = Cl and Br) with a Novel Hexagonal A₄B₂C Tunnel Structure

New Energetic Dodecahydro-closo-Dodecaborates (N₂H₅)₄X₂[B₁₂H₁₂] (X = Cl and Br) with a Novel Hexagonal A₄B₂C Tunnel Structure

Intercluster B–H and B–B aggregation in iso- and trans-[B₂₀H₁₈]²⁻. Spherical aromaticity in borane dimers