Influence of the dispersed particulate in chocolate on cocoa butter microstructure and fat crystal growth during storage

The dispersed particulates present in chocolate are shown to influence the microstructural development and fat crystal growth of cocoa butter (CB) during storage. Atomic force microscopy of both chocolate and CB showed that surface crystal growth on both materials was similar during isothermal (25 degrees C) storage over 4 weeks. However, unique micron-scale amorphous mounds also appeared on the surface of chocolate. With time, these regions increased in number and diameter and eventually solidified into clustered crystalline masses. X-Ray diffraction, solid fat content, and whiteness index measurements substantiated the observed crystal growth, with gradual increases in the proportion of the form VI polymorph, solid fat, and whiteness over time. Overall, these findings suggest that typical chocolate refining and tempering protocols result in a heterogeneously distributed particulate network that has a substantial impact on the morphology and crystallization pathway of the fat phase.