Use of infrared spectroscopy for the determination of electronegativity of rare earth elements

Ray L. Frost; Kristy L. Erickson; Matt L. Weier; Adam R. McKinnon; Peter A. Williams; Peter Leverett

Use of infrared spectroscopy for the determination of electronegativity of rare earth elements

Ray L. Frost, Kristy L. Erickson, Matt L. Weier, Adam R. McKinnon, Peter A. Williams, Peter Leverett

Research output: Contribution to journal › Article

13 Citations (Scopus)

Abstract

Infrared spectroscopy has been used to study a series of synthetic agardite minerals. Four OH stretching bands are observed at around 3568, 3482, 3362, and 3296 cmÃƒÂ¢Ã‚ÂÃ‚Â»ÃƒÆ’Ã¢â‚¬Å¡Ãƒ"šÃ‚Â¹. The first band is assigned to zeolitic, non-hydrogen-bonded water. The band at 3296 cmÃƒÂ¢Ã‚ÂÃ‚Â»ÃƒÆ’Ã¢â‚¬Å¡Ãƒ"šÃ‚Â¹ is assigned to strongly hydrogen-bonded water with an H bond distance of 2.72 ÃƒÆ’Ã†'Ãƒ"šÃ¢â‚¬Â¦. The water in agardites is better described as structured water and not as zeolitic water. Two bands at around 999 and 975 cmÃƒÂ¢Ã‚ÂÃ‚Â»ÃƒÆ’Ã¢â‚¬Å¡Ãƒ"šÃ‚Â¹ are assigned to OH deformation modes. Two sets of AsO symmetric stretching vibrations were found and assigned to the vibrational modes of AsOÃƒÂ¢Ã¢â‚¬Å¡Ã¢â‚¬Å¾ and HAsOÃƒÂ¢Ã¢â‚¬Å¡Ã¢â‚¬Å¾ units. Linear relationships between positions of infrared bands associated with bonding to the OH units and the electronegativity of the rare earth elements were derived, with correlation coefficients >0.92. These linear functions were then used to calculate the electronegativity of Eu, for which a value of 1.1808 on the Pauling scale was found.

Original language	English
Number of pages	5
Journal	Applied Spectroscopy
Publication status	Published - 2004

Keywords

agardite
ilectronegativity
infrared spectroscopy
rare earth metals

Cite this

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title = "Use of infrared spectroscopy for the determination of electronegativity of rare earth elements",

abstract = "Infrared spectroscopy has been used to study a series of synthetic agardite minerals. Four OH stretching bands are observed at around 3568, 3482, 3362, and 3296 cm{\~A}ƒ{\^A}¢{\~A}‚{\^A}{\~A}‚{\^A}»{\~A}ƒ{\AE}{\textquoteright}{\~A}¢{\^a}‚¬{\AA}¡{\~A}ƒ{"}{\v s}{\~A}‚{\^A}¹. The first band is assigned to zeolitic, non-hydrogen-bonded water. The band at 3296 cm{\~A}ƒ{\^A}¢{\~A}‚{\^A}{\~A}‚{\^A}»{\~A}ƒ{\AE}{\textquoteright}{\~A}¢{\^a}‚¬{\AA}¡{\~A}ƒ{"}{\v s}{\~A}‚{\^A}¹ is assigned to strongly hydrogen-bonded water with an H bond distance of 2.72 {\~A}ƒ{\AE}{\textquoteright}{\~A}†'{\~A}ƒ{"}{\v s}{\~A}¢{\^a}‚¬{\^A}¦. The water in agardites is better described as structured water and not as zeolitic water. Two bands at around 999 and 975 cm{\~A}ƒ{\^A}¢{\~A}‚{\^A}{\~A}‚{\^A}»{\~A}ƒ{\AE}{\textquoteright}{\~A}¢{\^a}‚¬{\AA}¡{\~A}ƒ{"}{\v s}{\~A}‚{\^A}¹ are assigned to OH deformation modes. Two sets of AsO symmetric stretching vibrations were found and assigned to the vibrational modes of AsO{\~A}ƒ{\^A}¢{\~A}¢{\^a}‚¬{\AA}¡{\~A}¢{\^a}‚¬{\AA}¾ and HAsO{\~A}ƒ{\^A}¢{\~A}¢{\^a}‚¬{\AA}¡{\~A}¢{\^a}‚¬{\AA}¾ units. Linear relationships between positions of infrared bands associated with bonding to the OH units and the electronegativity of the rare earth elements were derived, with correlation coefficients >0.92. These linear functions were then used to calculate the electronegativity of Eu, for which a value of 1.1808 on the Pauling scale was found.",

keywords = "agardite, ilectronegativity, infrared spectroscopy, rare earth metals",

author = "Frost, {Ray L.} and Erickson, {Kristy L.} and Weier, {Matt L.} and McKinnon, {Adam R.} and Williams, {Peter A.} and Peter Leverett",

year = "2004",

language = "English",

journal = "Applied Spectroscopy",

issn = "0003-7028",

publisher = "Sage Publications",

}

TY - JOUR

T1 - Use of infrared spectroscopy for the determination of electronegativity of rare earth elements

AU - Frost, Ray L.

AU - Erickson, Kristy L.

AU - Weier, Matt L.

AU - McKinnon, Adam R.

AU - Williams, Peter A.

AU - Leverett, Peter

PY - 2004

Y1 - 2004

N2 - Infrared spectroscopy has been used to study a series of synthetic agardite minerals. Four OH stretching bands are observed at around 3568, 3482, 3362, and 3296 cmÃƒÂ¢Ã‚ÂÃ‚Â»ÃƒÆ’Ã¢â‚¬Å¡Ãƒ"šÃ‚Â¹. The first band is assigned to zeolitic, non-hydrogen-bonded water. The band at 3296 cmÃƒÂ¢Ã‚ÂÃ‚Â»ÃƒÆ’Ã¢â‚¬Å¡Ãƒ"šÃ‚Â¹ is assigned to strongly hydrogen-bonded water with an H bond distance of 2.72 ÃƒÆ’Ã†'Ãƒ"šÃ¢â‚¬Â¦. The water in agardites is better described as structured water and not as zeolitic water. Two bands at around 999 and 975 cmÃƒÂ¢Ã‚ÂÃ‚Â»ÃƒÆ’Ã¢â‚¬Å¡Ãƒ"šÃ‚Â¹ are assigned to OH deformation modes. Two sets of AsO symmetric stretching vibrations were found and assigned to the vibrational modes of AsOÃƒÂ¢Ã¢â‚¬Å¡Ã¢â‚¬Å¾ and HAsOÃƒÂ¢Ã¢â‚¬Å¡Ã¢â‚¬Å¾ units. Linear relationships between positions of infrared bands associated with bonding to the OH units and the electronegativity of the rare earth elements were derived, with correlation coefficients >0.92. These linear functions were then used to calculate the electronegativity of Eu, for which a value of 1.1808 on the Pauling scale was found.

AB - Infrared spectroscopy has been used to study a series of synthetic agardite minerals. Four OH stretching bands are observed at around 3568, 3482, 3362, and 3296 cmÃƒÂ¢Ã‚ÂÃ‚Â»ÃƒÆ’Ã¢â‚¬Å¡Ãƒ"šÃ‚Â¹. The first band is assigned to zeolitic, non-hydrogen-bonded water. The band at 3296 cmÃƒÂ¢Ã‚ÂÃ‚Â»ÃƒÆ’Ã¢â‚¬Å¡Ãƒ"šÃ‚Â¹ is assigned to strongly hydrogen-bonded water with an H bond distance of 2.72 ÃƒÆ’Ã†'Ãƒ"šÃ¢â‚¬Â¦. The water in agardites is better described as structured water and not as zeolitic water. Two bands at around 999 and 975 cmÃƒÂ¢Ã‚ÂÃ‚Â»ÃƒÆ’Ã¢â‚¬Å¡Ãƒ"šÃ‚Â¹ are assigned to OH deformation modes. Two sets of AsO symmetric stretching vibrations were found and assigned to the vibrational modes of AsOÃƒÂ¢Ã¢â‚¬Å¡Ã¢â‚¬Å¾ and HAsOÃƒÂ¢Ã¢â‚¬Å¡Ã¢â‚¬Å¾ units. Linear relationships between positions of infrared bands associated with bonding to the OH units and the electronegativity of the rare earth elements were derived, with correlation coefficients >0.92. These linear functions were then used to calculate the electronegativity of Eu, for which a value of 1.1808 on the Pauling scale was found.

KW - agardite

KW - ilectronegativity

KW - infrared spectroscopy

KW - rare earth metals

UR - http://handle.uws.edu.au:8081/1959.7/10650

M3 - Article

SN - 0003-7028

JO - Applied Spectroscopy

JF - Applied Spectroscopy

ER -

Use of infrared spectroscopy for the determination of electronegativity of rare earth elements

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