Xiaoan Wang scite author profile

Cereal Chem. 76(2):231-235The amount and state of water play an important role in the preparation and properties of wheat flour doughs and their products. A new method for presentation and analysis of relaxation time measurements of protons in dough is described in this article. This new method acknowledges a continuous probability distribution of protons having different relaxation times in heterogeneous systems such as dough, which is dramatically different from the conventional discrete methods that rely on prior assumptions of a number of discrete relaxation components. In the present study, pulsed proton nuclear magnetic resonance was used to study the relaxation characteristics of dough systems at moisture levels of 12-45%. The relaxation curves obtained using a 90-degree pulse (Onepulse) sequence and the Carr-Purcell-Meiboom-Gill pulse sequence were analyzed using a multiexponential discrete model and a continuum model. The discrete model produced three fractions of protons relaxing in three different time domains. The continuum model produced spectra of spin-spin relaxation time vs. amplitude, from which two to five peaks, depending on the moisture content, could be identified. At moisture contents of 23 and 35%, dramatic changes in relaxation time and amplitude were observed with both models. The continuum model provided additional information about the homogeneity of the morphology and physical state of the dough systems.

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Xiaoan Wang

Study of Water in Dough Using Nuclear Magnetic Resonance

New insights into thermodynamic description of strain-induced crystallization of peroxide cross-linked natural rubber filled with clay by tube model

The expression and significance of HIF-1α and GLUT-3 in glioma

RAFT Copolymerization as a means to enhance the electro‐optical performance of polymer dispersed liquid crystal films

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