Mössbauer experiments on bismuth-antimony alloys

Teague, J. R.; Gerson, Robert

doi:10.1016/0038-1098(72)90993-3

Cited by 5 publications

(4 citation statements)

References 7 publications

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“…Similar shifts have been reported for elemental antimony (À11.6 mm s À1 ) and SnSb (À10.5 mm s À1 ). [37][38][39] For compound 3, the corresponding signals were also observed in both 119 Sn and 121 Sb Mçssbauer experiments, which confirm, in spite of lower resolution, the mixed Sn/Sb situation in the seven-atom cage (see the Supporting Information).…”

supporting

confidence: 57%

The Subtle Influence of Binary versus Homoatomic Zintl Ions: The Phenyl‐Ligated Trimetallic Cage [Sn₂Sb₅(ZnPh)₂]³⁻

Lips

Schellenberg

Pöttgen

et al. 2009

Chemistry A European J

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supporting

confidence: 57%

The Subtle Influence of Binary versus Homoatomic Zintl Ions: The Phenyl‐Ligated Trimetallic Cage [Sn₂Sb₅(ZnPh)₂]³⁻

Lips

Schellenberg

Pöttgen

et al. 2009

Chemistry A European J

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“…Compound 1 falls into the range for Sb 0 compounds, in agreement with the Zintl–Klemm concept for the [Sn 2 Sb 2 ] 2− anion. Similar shifts have been reported for elemental antimony (−11.6 mm s −1 ) and SnSb (−10.5 mm s −1 ) 37–39. For compound 3 , the corresponding signals were also observed in both 119 Sn and 121 Sb Mössbauer experiments, which confirm, in spite of lower resolution, the mixed Sn/Sb situation in the seven‐atom cage (see the Supporting Information).…”

Section: Methodssupporting

confidence: 84%

Impact behavior of unidirectional polyethylene–glass fibers: Resol/vinyl acetate‐2‐ethylhexylacrylate interpenetrating polymer network systems

Datta

Basu

Banerjee

2003

J of Applied Polymer Sci

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ABSTRACT:Resol was solution blended with vinyl acetate-2-ethylhexylacrylate (VAc-EHA) resin in an aqueous medium at a 90-10 w/w ratio with hexamethoxymethylmelamine (HMMM) as crosslinker. Here we aimed to study the impact behavior of unidirectional laminates cast from (Resol/VAc-EHA/HMMM)/glass fiber (GF), (Resol/VAc-EHA/HMMM)/polyethylene fiber (PEF), and (Resol/VAc-EHA/HMMM)/GF/PEF (hybrid) and to study the role of PEF ply/plies in hybrid laminates toward the impact behavior, as dependent on the relative position of the ply/plies. A brittle failure mode was observed in the GF-reinforced laminates, which tended to the ductile failure mode, with the incorporation of PEF ply/plies. Again, the impact fracture mode of GF was minimized by the placement of PEF ply/ plies at the impacted side of the hybrid laminates.

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“…AlSb has an isomer shift of −7.8 mm/s, an isomer shift that corresponds to an electronic configuration 5s 1.75 5p 3.44 for antimony and a valence electron density at the nucleus of 85.6 a 0 -3 . For comparison, antimony metal, which has been reported − to exhibit an isomer shift between −11.3 and −11.95 mm/s, has a far more negative isomer shift than Yb 14 MnSb 11 and Eu 14 MnSb 11 .…”

Section: Resultsmentioning

confidence: 98%

Antimony-121 Mössbauer Spectral Study of the Eu₁₄MnSb₁₁ and Yb₁₄MnSb₁₁ Zintl Compounds

Hermann¹,

Grandjean²,

Kafle³

et al. 2007

Inorg. Chem.

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The antimony-121 Mössbauer spectra of the Yb14MnSb11 and Eu14MnSb11 Zintl compounds have been measured between 2 or 5 and 300 K. The resulting three-dimensional arrays of the spectral counts, velocity, and temperature have been simultaneously fit with a minimum number of free parameters. These fits yield a 0 Kelvin transferred hyperfine field of 2.9(2) T, a Curie temperature of 57(3) K, and a Mössbauer temperature of 182(2) K for Yb14MnSb11; in this case the transferred field arises solely from the ordering of Mn2+. Because Eu14MnSb11 has both Eu2+ and Mn2+ ions that are magnetically ordered, its antimony-121 Mössbauer spectra are more complex and reveal two magnetic transitions, the first at 92(1) K resulting from the ordering of the Mn2+ ions and the second at 9.5(1.0) K resulting from the ordering of the Eu2+ ions; the corresponding 0 Kelvin transferred hyperfine fields are 1.3(1) and 3.7(1) T. The antimony-121 isomer shifts yield electronic configurations of 5s1.745p4.28 and 5s1.745p4.19 for the average antimony anion in Yb14MnSb11 and Eu14MnSb11, respectively.

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Mössbauer experiments on bismuth-antimony alloys

Cited by 5 publications

References 7 publications

The Subtle Influence of Binary versus Homoatomic Zintl Ions: The Phenyl‐Ligated Trimetallic Cage [Sn₂Sb₅(ZnPh)₂]³⁻

The Subtle Influence of Binary versus Homoatomic Zintl Ions: The Phenyl‐Ligated Trimetallic Cage [Sn₂Sb₅(ZnPh)₂]³⁻

Impact behavior of unidirectional polyethylene–glass fibers: Resol/vinyl acetate‐2‐ethylhexylacrylate interpenetrating polymer network systems

Antimony-121 Mössbauer Spectral Study of the Eu₁₄MnSb₁₁ and Yb₁₄MnSb₁₁ Zintl Compounds

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Mössbauer experiments on bismuth-antimony alloys

Cited by 5 publications

References 7 publications

The Subtle Influence of Binary versus Homoatomic Zintl Ions: The Phenyl‐Ligated Trimetallic Cage [Sn2Sb5(ZnPh)2]3−

The Subtle Influence of Binary versus Homoatomic Zintl Ions: The Phenyl‐Ligated Trimetallic Cage [Sn2Sb5(ZnPh)2]3−

Impact behavior of unidirectional polyethylene–glass fibers: Resol/vinyl acetate‐2‐ethylhexylacrylate interpenetrating polymer network systems

Antimony-121 Mössbauer Spectral Study of the Eu14MnSb11 and Yb14MnSb11 Zintl Compounds

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The Subtle Influence of Binary versus Homoatomic Zintl Ions: The Phenyl‐Ligated Trimetallic Cage [Sn₂Sb₅(ZnPh)₂]³⁻

The Subtle Influence of Binary versus Homoatomic Zintl Ions: The Phenyl‐Ligated Trimetallic Cage [Sn₂Sb₅(ZnPh)₂]³⁻

Antimony-121 Mössbauer Spectral Study of the Eu₁₄MnSb₁₁ and Yb₁₄MnSb₁₁ Zintl Compounds