Thermal stability of vitamin C: Thermogravimetric analysis and use of total ion monitoring chromatograms

► Thermal decomposition kinetics and shelf life of vitamin C were studied. ► TGA and EGA–Li +IAMS systems were used with non-isothermal heating. ► Vitamin C was shown to have higher thermal stability in nitrogen than in air. ► The shelf lives ( t 90%,25 °C ) estimated by TGA agreed with the values e...

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Published inJournal of Pharmaceutical and Biomedical Analysis Vol. 59; pp. 190 - 193
Main Authors Juhász, Márta, Kitahara, Yuki, Takahashi, Seiji, Fujii, Toshihiro
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 05.02.2012
Elsevier BV
Elsevier
Subjects
activation energy
air
Analysis
Analytical, structural and metabolic biochemistry
Arrhenius parameters
Ascorbic Acid
Ascorbic Acid - analysis
Ascorbic Acid - standards
Biological and medical sciences
Decomposition kinetic
Drug Stability
Drug Storage
EGA–Li +IAMS
Fundamental and applied biological sciences. Psychology
General pharmacology
Hot Temperature
Kinetics
l-ascorbic acid
Mass Spectrometry
Mass Spectrometry - methods
Medical sciences
monitoring
nitrogen
Pharmacology. Drug treatments
Shelf life
TGA
thermal degradation
thermal stability
Thermogravimetry
weight loss
l-ascorbic acid
Shelf life
Arrhenius parameters
EGA–Li +IAMS
Decomposition kinetic
TGA
Ascorbic acid
L-ascorbic acid
Vitamin
Thermogravimetry
Chromatogram
Thermal stability
EGA-Li
Kinetics
Kinetic parameter
Evolved gas analysis
IAMS
Monitoring
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Abstract ► Thermal decomposition kinetics and shelf life of vitamin C were studied. ► TGA and EGA–Li +IAMS systems were used with non-isothermal heating. ► Vitamin C was shown to have higher thermal stability in nitrogen than in air. ► The shelf lives ( t 90%,25 °C ) estimated by TGA agreed with the values estimated by using a pyrogram. ► EGA–Li +IAMS is a reliable alternative method to TGA for thermal stability studies. The thermal decomposition kinetics and shelf life of vitamin C in nitrogen or air were studied by using thermogravimetric analysis (TGA) and evolved-gas analysis–lithium-ion attachment mass spectrometry (EGA–Li +IAMS). Arrhenius parameters obtained via TGA were reported for thermal decomposition. For vitamin C in a nitrogen atmosphere, the activation energy ( E a ) was 25.1 kcal/mol and the pre-exponential factor ( A) was 2.5 × 10 11 min −1. The kinetic parameters estimated via TGA agreed with values estimated from a pyrogram when the weight loss observed by TGA was shown to be due to gas evolution as a result of decomposition of the compound. Thermal stability was expressed by calculating the time for 10% of the vitamin C to decompose at 25 °C ( t 90%,25 °C ). The t 90%,25 °C for vitamin C obtained via TGA or EGA–Li +IAMS was higher in nitrogen (2.0 and 2.0 years, respectively) than in air (1.3 and 1.6 years, respectively). This indicates that the type of atmosphere influences vitamin C stability.
AbstractList The thermal decomposition kinetics and shelf life of vitamin C in nitrogen or air were studied by using thermogravimetric analysis (TGA) and evolved-gas analysis–lithium-ion attachment mass spectrometry (EGA–Li⁺IAMS). Arrhenius parameters obtained via TGA were reported for thermal decomposition. For vitamin C in a nitrogen atmosphere, the activation energy (Eₐ) was 25.1kcal/mol and the pre-exponential factor (A) was 2.5×10¹¹min⁻¹. The kinetic parameters estimated via TGA agreed with values estimated from a pyrogram when the weight loss observed by TGA was shown to be due to gas evolution as a result of decomposition of the compound. Thermal stability was expressed by calculating the time for 10% of the vitamin C to decompose at 25°C (t₉₀%,₂₅°C). The t₉₀%,₂₅°C for vitamin C obtained via TGA or EGA–Li⁺IAMS was higher in nitrogen (2.0 and 2.0 years, respectively) than in air (1.3 and 1.6 years, respectively). This indicates that the type of atmosphere influences vitamin C stability.
The thermal decomposition kinetics and shelf life of vitamin C in nitrogen or air were studied by using thermogravimetric analysis (TGA) and evolved-gas analysis-lithium-ion attachment mass spectrometry (EGA-Li⁺IAMS). Arrhenius parameters obtained via TGA were reported for thermal decomposition. For vitamin C in a nitrogen atmosphere, the activation energy (E(a)) was 25.1 kcal/mol and the pre-exponential factor (A) was 2.5 × 10¹¹ min⁻¹. The kinetic parameters estimated via TGA agreed with values estimated from a pyrogram when the weight loss observed by TGA was shown to be due to gas evolution as a result of decomposition of the compound. Thermal stability was expressed by calculating the time for 10% of the vitamin C to decompose at 25 °C (t(90%,25 °C)). The t(90%,25 °C) for vitamin C obtained via TGA or EGA-Li⁺IAMS was higher in nitrogen (2.0 and 2.0 years, respectively) than in air (1.3 and 1.6 years, respectively). This indicates that the type of atmosphere influences vitamin C stability.The thermal decomposition kinetics and shelf life of vitamin C in nitrogen or air were studied by using thermogravimetric analysis (TGA) and evolved-gas analysis-lithium-ion attachment mass spectrometry (EGA-Li⁺IAMS). Arrhenius parameters obtained via TGA were reported for thermal decomposition. For vitamin C in a nitrogen atmosphere, the activation energy (E(a)) was 25.1 kcal/mol and the pre-exponential factor (A) was 2.5 × 10¹¹ min⁻¹. The kinetic parameters estimated via TGA agreed with values estimated from a pyrogram when the weight loss observed by TGA was shown to be due to gas evolution as a result of decomposition of the compound. Thermal stability was expressed by calculating the time for 10% of the vitamin C to decompose at 25 °C (t(90%,25 °C)). The t(90%,25 °C) for vitamin C obtained via TGA or EGA-Li⁺IAMS was higher in nitrogen (2.0 and 2.0 years, respectively) than in air (1.3 and 1.6 years, respectively). This indicates that the type of atmosphere influences vitamin C stability.
The thermal decomposition kinetics and shelf life of vitamin C in nitrogen or air were studied by using thermogravimetric analysis (TGA) and evolved-gas analysis-lithium-ion attachment mass spectrometry (EGA-Li⁺IAMS). Arrhenius parameters obtained via TGA were reported for thermal decomposition. For vitamin C in a nitrogen atmosphere, the activation energy (E(a)) was 25.1 kcal/mol and the pre-exponential factor (A) was 2.5 × 10¹¹ min⁻¹. The kinetic parameters estimated via TGA agreed with values estimated from a pyrogram when the weight loss observed by TGA was shown to be due to gas evolution as a result of decomposition of the compound. Thermal stability was expressed by calculating the time for 10% of the vitamin C to decompose at 25 °C (t(90%,25 °C)). The t(90%,25 °C) for vitamin C obtained via TGA or EGA-Li⁺IAMS was higher in nitrogen (2.0 and 2.0 years, respectively) than in air (1.3 and 1.6 years, respectively). This indicates that the type of atmosphere influences vitamin C stability.
► Thermal decomposition kinetics and shelf life of vitamin C were studied. ► TGA and EGA–Li +IAMS systems were used with non-isothermal heating. ► Vitamin C was shown to have higher thermal stability in nitrogen than in air. ► The shelf lives ( t 90%,25 °C ) estimated by TGA agreed with the values estimated by using a pyrogram. ► EGA–Li +IAMS is a reliable alternative method to TGA for thermal stability studies. The thermal decomposition kinetics and shelf life of vitamin C in nitrogen or air were studied by using thermogravimetric analysis (TGA) and evolved-gas analysis–lithium-ion attachment mass spectrometry (EGA–Li +IAMS). Arrhenius parameters obtained via TGA were reported for thermal decomposition. For vitamin C in a nitrogen atmosphere, the activation energy ( E a ) was 25.1 kcal/mol and the pre-exponential factor ( A) was 2.5 × 10 11 min −1. The kinetic parameters estimated via TGA agreed with values estimated from a pyrogram when the weight loss observed by TGA was shown to be due to gas evolution as a result of decomposition of the compound. Thermal stability was expressed by calculating the time for 10% of the vitamin C to decompose at 25 °C ( t 90%,25 °C ). The t 90%,25 °C for vitamin C obtained via TGA or EGA–Li +IAMS was higher in nitrogen (2.0 and 2.0 years, respectively) than in air (1.3 and 1.6 years, respectively). This indicates that the type of atmosphere influences vitamin C stability.
Author Juhász, Márta
Takahashi, Seiji
Fujii, Toshihiro
Kitahara, Yuki
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  surname: Juhász
  fullname: Juhász, Márta
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  givenname: Yuki
  surname: Kitahara
  fullname: Kitahara, Yuki
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  fullname: Takahashi, Seiji
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  surname: Fujii
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  email: fujii@chem.meisei-u.ac.jp
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Keywords l-ascorbic acid
Shelf life
Arrhenius parameters
EGA–Li +IAMS
Decomposition kinetic
TGA
Ascorbic acid
L-ascorbic acid
Vitamin
Thermogravimetry
Chromatogram
Thermal stability
EGA-Li
Kinetics
Kinetic parameter
Evolved gas analysis
IAMS
Monitoring
Language English
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Snippet ► Thermal decomposition kinetics and shelf life of vitamin C were studied. ► TGA and EGA–Li +IAMS systems were used with non-isothermal heating. ► Vitamin C...
The thermal decomposition kinetics and shelf life of vitamin C in nitrogen or air were studied by using thermogravimetric analysis (TGA) and evolved-gas...
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SubjectTerms activation energy
air
Analysis
Analytical, structural and metabolic biochemistry
Arrhenius parameters
Ascorbic Acid
Ascorbic Acid - analysis
Ascorbic Acid - standards
Biological and medical sciences
Decomposition kinetic
Drug Stability
Drug Storage
EGA–Li +IAMS
Fundamental and applied biological sciences. Psychology
General pharmacology
Hot Temperature
Kinetics
l-ascorbic acid
Mass Spectrometry
Mass Spectrometry - methods
Medical sciences
monitoring
nitrogen
Pharmacology. Drug treatments
Shelf life
TGA
thermal degradation
thermal stability
Thermogravimetry
weight loss
Title Thermal stability of vitamin C: Thermogravimetric analysis and use of total ion monitoring chromatograms
URI https://dx.doi.org/10.1016/j.jpba.2011.10.011
https://cir.nii.ac.jp/crid/1874242818004358656
https://www.ncbi.nlm.nih.gov/pubmed/22075373
https://www.proquest.com/docview/1678535773
https://www.proquest.com/docview/906560506
Volume 59
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