Crystal Structure and Characterization of CsH5(AsO4)2: A New Cesium Pentahydrogen Arsenate, and Comparison with CsH5(PO4)2 and RbH5(AsO4)2

Naı̈li, Houcine; Mhiri, Tahar; Jaud, J.

doi:10.1006/jssc.2001.9218

Cited by 16 publications

(4 citation statements)

References 26 publications

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“…It is assumed that the crystal does not exhibit any structural phase transition in this temperature range. These results are very similar to those obtained in the RbH 5 (AsO 4 ) 2 and CsH 5 (AsO 4 ) 2 crystals [11,12]. These crystals do not exhibit any structural phase transition in the temperature ranges (100-575 K in RbH 5 (AsO 4 ) 2 and 123-473 K in CsH 5 (AsO 4 ) 2 ), but undergo the melting transitions at 410 and 427 K, respectively.…”

Section: Methodssupporting

confidence: 91%

Studies on a new Rb₃H₉(PO₄)₄ crystal

Fukami¹,

Chen

2004

Cryst. Res. Technol.

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A new type of trirubidium nonahydrogen tetraphosphate, Rb 3 H 9 (PO 4 ) 4 , crystal has been crystallized. Differential scanning calorimetry (DSC) and X-ray diffraction measurements have been performed on the title compound. The crystal does not undergo any structural phase transition in the temperature range from 120 to 440 K except a melting transition at 399 K. The compound belongs to a monoclinic system with space group C2/c at room temperature. The structure is built on a framework of PO 4 tetrahedra linked by five types of O-H-O hydrogen bonds in the length range from 2.472(4) to 2.679(4) Å.

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Section: Methodssupporting

confidence: 91%

Studies on a new Rb₃H₉(PO₄)₄ crystal

Fukami¹,

Chen

2004

Cryst. Res. Technol.

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“…14 30) . The DTA profiles of all sam ples showed a large endothermic peak in the tempera ture range of -5℃, which can be assigned to the melting of CsH5(PO)2 20) . The melting point was shifted to lower temperature for composites, indicating that the matrix affected the state of CsH5(PO)2.…”

Section: )30)mentioning

confidence: 93%

“…Considering the melting point of pure CsH5(PO)2 (ca. 50℃) 20) , the former and latter peaks s h o u l d b e a s s i g n e d t o t h e m e l t i n g p r o c e s s o f CsH5(PO)2 and the condensation with dehydration of phosphates in dry nitrogen, respectively. This assign ment agreed well with the XRD patterns: the lines assigned to CsH5(PO)2 disappeared, whereas SiP2O phase showed no change above 30℃.…”

Section: Based On Csh2po4/sip2o7mentioning

confidence: 98%

Development of Novel Proton Conductors Consisting of Solid Acid/pyrophosphate Composite for Intermediate-temperature Fuel Cells

Matsui

Muroyama

Kikuchi

et al. 2010

J. Jpn. Petrol. Inst.

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Fuel cells are attractive energy conversion devices with high efficiencies and low emissions, and many studies have been conducted so far. Among them, fuel cells operating at 200-00℃ are promising technologies which combine the many advantages of high-and low-temperature fuel cells. However, they have not been developed due to the lack of good ionic-conductors with high thermal stability at intermediate temperatures. Recently, we have developed new proton-conductive electrolytes consisting of solid acid and pyrophosphate, and evaluated their electrochemical, structural and thermal properties at intermediate temperatures. For the composite based on CsH2PO/SiP2O, the interfacial chemical reaction between CsH2PO and SiP2O during heat-treatment gave rise to the formation of a new phase of CsH5(PO)2. The temperature dependence of conductivity for this composite was different from that for pure CsH2PO, and the maximum conductivity achieved was mS・cm -at 2℃. Using potassium and rubidium salts, MH2PO (M＝K, Rb), as the solid acids for the composite electro lytes, analogous phenomena were confirmed despite the alkaline metal. Operation of a fuel cell employing CsH2PO/SiP2O-based composite electrolyte (thickness: ca. .3 mm) was demonstrated at 200℃ and generated electricity up to 220 mA・cm -2 at 0.2 V. CsH5(PO)2 composites with SiP2O and SiO2 were fabricated, and the composite effects were investigated at intermediate temperatures based on conductivity measurement, thermal analysis, and wettability evaluation. The melting and dehydration processes of CsH5(PO)2 in composites were different depending on the matrix species. The composite with SiP2O matrix showed the highest conductivity of all composites. The conductivity of the composites appears to correlate with the wettability between the components as examined by contact angle measurement. These findings should be attributed to the differences in the interfacial interactions between CsH5(PO)2 and the matrix.

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“…The vibrational analysis of an isolated arsenate, phosphate anion AsO4 3-, with Td point group symmetry leads to four Raman active normal modes: ν1(A1), ν2(E), ν3(F2) and ν3(F2) with average wavenumbers 837, 349, 887 and 463 cm -1 , respectively [26]. ν1 and ν3 involve the symmetric and the antisymmetric stretching mode of the As-O bonds, whereas ν2 involve mainly O-As-O, symmetric and anti-symmetric bending modes.…”

Section: Vibrational Analysismentioning

confidence: 99%

Crystal structure, thermal behavior and vibrational studies of tetraethylammonium dihydrogenarsenate bis-arsenic acid [(C2H5)4N].[H2AsO4].[H3AsO4]2

Dhouib¹,

Guionneau²,

Mhiri³

et al. 2014

Eur. J. Chem.

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Crystal Structure and Characterization of CsH5(AsO4)2: A New Cesium Pentahydrogen Arsenate, and Comparison with CsH5(PO4)2 and RbH5(AsO4)2

Cited by 16 publications

References 26 publications

Studies on a new Rb₃H₉(PO₄)₄ crystal

Studies on a new Rb₃H₉(PO₄)₄ crystal

Development of Novel Proton Conductors Consisting of Solid Acid/pyrophosphate Composite for Intermediate-temperature Fuel Cells

Crystal structure, thermal behavior and vibrational studies of tetraethylammonium dihydrogenarsenate bis-arsenic acid [(C2H5)4N].[H2AsO4].[H3AsO4]2

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Crystal Structure and Characterization of CsH5(AsO4)2: A New Cesium Pentahydrogen Arsenate, and Comparison with CsH5(PO4)2 and RbH5(AsO4)2

Cited by 16 publications

References 26 publications

Studies on a new Rb3H9(PO4)4 crystal

Studies on a new Rb3H9(PO4)4 crystal

Development of Novel Proton Conductors Consisting of Solid Acid/pyrophosphate Composite for Intermediate-temperature Fuel Cells

Crystal structure, thermal behavior and vibrational studies of tetraethylammonium dihydrogenarsenate bis-arsenic acid [(C2H5)4N].[H2AsO4].[H3AsO4]2

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Studies on a new Rb₃H₉(PO₄)₄ crystal

Studies on a new Rb₃H₉(PO₄)₄ crystal