7789-67-5Relevant articles and documents
Moessbauer studies of pressure-induced amorphization in the molecular crystal SnBr4
Hearne, G. R.,Pasternak, M. P.,Taylor, R. D.
, (1995)
Properties of the molecular structure abd the Sn(IV) valence of the pressure-amorphized SnBr4 molecular crystal were investigated by (119)Sn Moessbauer spectroscopy. Studies were conducted at 80 K with pressures to 25 GPa, far beyond the amorphization onset at P(c) = 7 - 9 GPa as determined by previous Raman studies. No valence change in the Sn(IV) central ion takes place as deduced from the isomer shift (IS) variation with pressure, in contrast to the analogous molecular crystal SnI4 which undergoes amorphization and metallization under pressure. The IS value of 1.15(5) mm/s, with respect to a CaSnO3 source at 300 K, remains practically constant over the whole pressure range, suggesting little variation in both the Sn-Br intramolecular distances and covalency within the amorphous and/or insulator pressure regime. A single line spectrum is characteristic of the Moessbauer data obtained in the 0 - 5 GPa range, indicating the preservation of fourfold symmetry of the SnBr4 molecule in the crystal. Above 5 GPa, near P(c), a quadruple interaction takes place concurrentwith a dramatic increase in the recoil-free fraction (f). The value of the quadrupole splitting reaches a maximum of 0.9 mm/s at P .apprx. 15 G Pa and remains constant thereafter. By .apprx. 9 GPa the absorption area, which is proportional to f, increases by 30 - 40% over the lowest pressure value and then remains constant at higher pressure. These results are consistent with the formation of a molecular species, e.g., a (SnBr4)2 dimer, lacking the T(d) symmetry at the original Sn(4+) site and having optical phonons hard enough not to be excited by the nuclear recoil process. Molecular association into (SnBr4)2 dimers, the building block ofthe high-pressure disordered state, also explains many of the experimen tal features of the Raman data. Upon decompression, Moessbauer (and Raman) data suggest that these dimers dissociate into monomers at .apprx. 5 GPa; however, a disordered structure of SnBr4 persists as pressure is decreased further. Crystallization is fully recovered below 1 GPa. The nature of the pressure-induced amorphization of the insulator SnBr4 is discussed in terms of the structural and valence properties of the analogousmetallic SnI4.
Influence of hidden halogen mobility on local structure of CsSn(Cl1?xBrx)3mixed-halide perovskites by solid-state NMR
Karmakar, Abhoy,Bhattacharya, Amit,Sarkar, Diganta,Bernard, Guy M.,Mar, Arthur,Michaelis, Vladimir K.
, p. 3253 - 3263 (2021/03/17)
Tin halide perovskites are promising candidates for lead-free photovoltaic and optoelectronic materials, but not all of them have been well characterized. It is essential to determine how the bulk photophysical properties are correlated with their structures at both short and long ranges. Although CsSnCl3is normally stable in the cubic perovskite structure only above 379 K, it was prepared as a metastable phase at room temperature. The transition from the cubic to the monoclinic phase, which is the stable form at room temperature, was tracked by solid-state133Cs NMR spectroscopy and shown to take place through a first-order kinetics process. The complete solid solution CsSn(Cl1?xBrx)3(0 ≤x≤ 1) was successfully prepared, exhibiting cubic perovskite structures extending between the metastable CsSnCl3and stable CsSnBr3end-members. The NMR spectra of CsSnBr3samples obtained by three routes (high-temperature, mechanochemical, and solvent-assisted reactions) show distinct chemical shift ranges, spin-lattice relaxation parameters and peak widths, indicative of differences in local structure, defects and degree of crystallinity within these samples. Variable-temperature119Sn spin-lattice relaxation measurements reveal spontaneous mobility of Br atoms in CsSnBr3. The degradation of CsSnBr3, exposed to an ambient atmosphere for nearly a year, was monitored by NMR spectroscopy and powder X-ray diffraction, as well as by optical absorption spectroscopy.
Metal-organic hybrids of tin(IV): Synthesis, crystal structure, third-order nonlinear optical properties and Hirshfeld surface analysis of bis(1,2,3,4-tetrahydroquinolinium) hexahalostannate(IV)
Dhanalakshmi,Balakrishnan,Ahamed, S. Rafi,Vinitha,Parthiban
, (2021/04/19)
The self-assembled organic-inorganic hybrid materials such as bis(1,2,3,4-tetrahydroquinolinium) hexachlorostannate(IV) (1) and bis(1,2,3,4-tetrahydroquinolinium) hexabromostannate(IV) (2) have been synthesized for their huge applications in opto-non-line
Use of Perfluorodecalin as a Reaction Medium for the Preparation of Anhydrous Metal Bromides
Hibbert, Thomas G.,Tuck, Dennis G.,Wade, Kenneth
, p. 746 - 746 (2008/10/09)
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