X-Ray Photoacoustic Spectrometry Applied to Determination of Iron in Aluminum Hydroxide Gel

Kenji KATO; Yoshinori SUGITANI

doi:10.2116/analsci.5.697

Kenji KATO, Yoshinori SUGITANI

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Keywords: X-Ray, photoacoustic spectrometry, iron, aluminum hydroxide gel, synchrotron radiation

JOURNAL FREE ACCESS

1989 Volume 5 Issue 6 Pages 697-699

DOI https://doi.org/10.2116/analsci.5.697

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Published: December 10, 1989 Received: July 29, 1989 Available on J-STAGE: June 30, 2006 Accepted: September 06, 1989 Advance online publication: - Revised: -
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Date of correction: June 30, 2006 Reason for correction: - Correction: ABSTRACT Details: Wrong : An attempt was made to determine the iron in an aluminum hydroxide gel powder by an X-ray photoacoustic measurement. It was conducted using a monochromated X-ray beam (1.504Å) of synchrotron radiation as an excitation source. The iron in the sample was also determined by a spectrophotometric method, while the water content in the sample was determined from the weight loss by a thermal analytical method. Photoacoustic signal intensities roughly agreed with those calculated from the elemental compositions of the samples. The rough agreement is due to the fact that the background signal from the aluminum hydroxide gel was not negligibly small. However, the background signal decreased in measurements at high chopping frequency, and the calibration curves of iron showed good linearities. The photoacoustic signal intensity of samples containing iron varied as f^-1, where f is the chopping frequency. This was different from that for a sample without iron.
Right : An attempt was made to determine the iron in an aluminum hydroxide gel powder by an X-ray photoacoustic measurement. It was conducted using a monochromated X-ray beam (1.504Å) of synchrotron radiation as an excitation source. The iron in the sample was also determined by a spectrophotometric method, while the water content in the sample was determined from the weight loss by a thermal analytical method. Photoacoustic signal intensities roughly agreed with those calculated from the elemental compositions of the samples. The rough agreement is due to the fact that the background signal from the aluminum hydroxide gel was not negligibly small. However, the background signal decreased in measurements at high chopping frequency, and the calibration curves of iron showed good linearities. The photoacoustic signal intensity of samples containing iron varied as f^-1, where f is the chopping frequency. This was different from that for a sample without iron.

Date of correction: June 30, 2006 Reason for correction: - Correction: PDF FILE Details: -

Abstract

An attempt was made to determine the iron in an aluminum hydroxide gel powder by an X-ray photoacoustic measurement. It was conducted using a monochromated X-ray beam (1.504Å) of synchrotron radiation as an excitation source. The iron in the sample was also determined by a spectrophotometric method, while the water content in the sample was determined from the weight loss by a thermal analytical method. Photoacoustic signal intensities roughly agreed with those calculated from the elemental compositions of the samples. The rough agreement is due to the fact that the background signal from the aluminum hydroxide gel was not negligibly small. However, the background signal decreased in measurements at high chopping frequency, and the calibration curves of iron showed good linearities. The photoacoustic signal intensity of samples containing iron varied as f^-1, where f is the chopping frequency. This was different from that for a sample without iron.

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