Analysis of water sorption isotherms of amorphous food materials by solution thermodynamics with relevance to glass transition: evaluation of plasticizing effect of water by the thermodynamic parameters

Shimazaki, Eriko; Tashiro, Akiko; Kumagai, Hitomi; Kumagai, Hitoshi

doi:10.1080/09168451.2016.1277945

Bioscience, Biotechnology, and Biochemistry

2017

DOI: 10.1080/09168451.2016.1277945

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Analysis of water sorption isotherms of amorphous food materials by solution thermodynamics with relevance to glass transition: evaluation of plasticizing effect of water by the thermodynamic parameters

Eriko Shimazaki

Akiko Tashiro

Hitomi Kumagai

et al.

Abstract: Relation between the thermodynamic parameters obtained from water sorption isotherms and the degree of reduction in the glass transition temperature (T), accompanied by water sorption, was quantitatively studied. Two well-known glassy food materials namely, wheat gluten and maltodextrin were used as samples. The difference between the chemical potential of water in a solution and that of pure water ([Formula: see text]), the difference between the chemical potential of solid in a solution and that of a pure so… Show more

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Cited by 3 publications

References 29 publications

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Effect of counterions on the water sorption and glass transition properties of maltobionate salts

Mochizuki,

Anantawittayanon,

Fukami

et al. 2024

J Therm Anal Calorim

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The purpose of this study was to clarify the effect of counterions on the water sorption and glass transition properties of maltobionate salts. Sodium maltobionate (NaMb), potassium maltobionate (KMb), and magnesium maltobionate (MgMb2) were employed, and the values for calcium maltobionate (CaMb2) and maltose were taken from the literature. The water sorption isotherm of the samples was characterized using the Guggenheim-Anderson-de Boer model. The glass transition temperature (Tg) and freeze-concentrated glass transition temperature (Tg’) were evaluated by differential scanning calorimetry. The effect of water content on the Tg was analyzed using the Gordon-Taylor model. The order of the anhydrous Tg values of maltobionate salts was: KMb < NaMb < maltose < MgMb2 < CaMb2. The anhydrous Tg of the divalent cation forms (MgMb2 and CaMb2) was much higher than that of the monovalent cation forms (NaMb and KMb). The anhydrous Tg will be affected by the plasticizing effect and electrostatic effect of cations. The Tg depression induced by water plasticizing was greater for KMb than for the other maltobionate salts. The order of Tg’ values of freeze-concentrated maltobionate salts was: KMb < maltose < NaMb < MgMb2 < CaMb2. This trend was almost the same as that seen for anhydrous Tg, but the range of the Tg’ values (242.2–257.8 K) was much lower than that of the anhydrous Tg (346.9–421.3 K). The Tg’ appears to be affected by the strength of ionic interactions and amount of unfrozen water.

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Effect of counterions on the water sorption and glass transition properties of maltobionate salts

Mochizuki,

Anantawittayanon,

Fukami

et al. 2024

J Therm Anal Calorim

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Implication of water state on glass transition temperature in hot air-dried carrot slices

Liu

et al. 2017

LWT

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Analysis of Physical Properties of Foods Relating to Water and Their Application

Kumagai

2017

Japan J. Food Eng.

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Some topics related to physical properties of foods and effect of water on them were reviewed. The freeze-drying of liquid foods can be analyzed by a modified URIF (Uniformly Retreating Ice Front) model below the sample temperature of T g ', the glass transition temperature for CAS (Concentrated Amorphous Solution) in frozen low-concentration material. If sample temperature increases above T g ' during freeze-drying, CAS in the frozen sample is in the rubbery state. The CAS in the rubbery state may collapse during freeze-dr ying and block the path of vapor, which makes it difficult to remove water from the sample. Water sorption isotherms give information on the interaction between water and solid components in foods. Using solution thermodynamics, the thermodynamic parameters of both water and solutes can be estimated. The integral Gibbs free energy, ΔG s , is considered to be a suitable parameter for evaluating the interaction between solid and water from the thermodynamic point of view. The thermodynamic parameters obtained from water sorption isotherms relate to the degree of reduction in the glass transition temperature (T g ), accompanied by water sorption. The difference between the chemical potential of solid (adsorbent) between a solution and a pure solid, ΔG a s , which is obtained from water sorption isotherms by solution thermodynamics, is correlated with ΔT g (≡T g -T g0 ; where T g0 is T g of dry material). This indicates that plasticizing effect of water on foods can be evaluated through the parameter ΔG a s . The relaxation time τ obtained from the dielectric relaxation is also considered to be suitable parameters for the characterization of the plasticizing effect of water on a glassy material. The percolation model effectively described behavior of the rheological properties of food hydrocolloids near the sol-gel transition point. The maximum velocity through the human pharynx, V max , which is obtained by the ultrasonic pulse Doppler method, is considered to be a good predictor of aspiration risk for patients with dysphagia．For a gelling agent, V max decreased with the increase in concentration; the decrease was slight above the concentration of the sol-gel transition point.

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Analysis of water sorption isotherms of amorphous food materials by solution thermodynamics with relevance to glass transition: evaluation of plasticizing effect of water by the thermodynamic parameters

Cited by 3 publications

References 29 publications

Effect of counterions on the water sorption and glass transition properties of maltobionate salts

Effect of counterions on the water sorption and glass transition properties of maltobionate salts

Implication of water state on glass transition temperature in hot air-dried carrot slices

Analysis of Physical Properties of Foods Relating to Water and Their Application

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