Cocoa Butter and Related Compounds

CHAPTER 1: Chocolate and Cocoa Butter—Structure and CompositionCHAPTER 2: Theobroma cacao—An Introduction to the Plant, Its Composition, Uses, and Health BenefitsCHAPTER 3: Cocoa PolyphenolsCHAPTER 4: Phase Behavior of Saturated Triacylglycerides—Influence of Symmetry and Chain Length MismatchCHAPTER 5: Molecular Composition Dynamics and Structure of Cocoa ButterCHAPTER 6: Polymorphism and Mixing Phase Behavior of Major Triacylglycerols of Cocoa ButterCHAPTER 7: Causes and Best Manufacturing Practices to Minimize Bloom in ConfectionsCHAPTER 8: Morphology of Chocolate Fat BloomCHAPTER 9: Effect of Minor Components on Cocoa Butter Polymorphism and Kinetics of Crystallization CHAPTER 10: Noncocoa Ingredients on Cocoa Butter CrystallizationCHAPTER 11: Impact of Cocoa Butter Origin on Crystal BehaviorCHAPTER 12: Effect of Emulsifiers on Cocoa Butter and Chocolate Rheology, Polymorphism, and BloomCHAPTER 13: Methods of Studying Cocoa Butter and BloomCHAPTER 14: New Method to Study Molecular Interactions in Fats—Synchrotron Radiation Microbeam X-ray DiffractionCHAPTER 15: Milk Fat and Cocoa ButterCHAPTER 16: Molecular Interactions of Triacylglycerides in Blends of Cocoa Butter with trans-free Vegetable OilsCHAPTER 17: Methods and Technologies Related to Shea Butter Chemophysical Properties and to the Delivery of Bioactives in Chocolate and Related ProductsCHAPTER 18: Enzymatic and Other Modification Techniques to Produce Cocoa Butter AlternativesCHAPTER 19: Confectionery FatsCHAPTER 20: Future of Cocoa Butter Research