Muriel Jacquot scite author profile

Environmental, economic, and safety challenges have provoked packaging scientists and producers to partially substitute petrochemical-based polymers with biodegradable ones. The general purpose of this review is to introduce poly-lactic acid (PLA), a compostable, biodegradable thermoplastic made from renewable sources. PLA properties and modifications via different methods, like using modifiers, blending, copolymerizing, and physical treatments, are mentioned; these are rarely discussed together in other reviews. Industrial processing methods for producing different PLA films, wrappings, laminates, containers (bottles and cups), are presented. The capabilities of PLA for being a strong active packaging material in different areas requiring antimicrobial and antioxidant characteristics are discussed. Consequently, applications of nanomaterials in combination with PLA structures for creating new PLA nanocomposites with greater abilities are also covered. These approaches may modify PLA weaknesses for some food packaging applications. Nanotechnology approaches are being broadened in food science, especially in packaging material science with high performances and low concentrations and prices, so this category of nano-research is estimated to be revolutionary in food packaging science in the near future. The linkage of a 100% bio-originated material and nanomaterials opens new windows for becoming independent, primarily, of petrochemical-based polymers and, secondarily, for answering environmental and health concerns will undoubtedly be growing with time.

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Flavour encapsulation and controlled release – a review

Madene¹,

Jacquot²,

Scher³

et al. 2005

Int J of Food Sci Tech

1,030

601

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SummaryFlavours can be among the most valuable ingredients in any food formula. Even small amounts of some aroma substance can be expensive, and because they are usually delicate and volatile, preserving them is often a top concern of food manufacturers. Encapsulation describes different processes to cover an active compound with a protective wall material and it can be employed to treat flavours so as to impart some degree of protection against evaporation, reaction, or migration in a food. Encapsulation of flavours has been attempted and commercialized using many different methods such as spray drying, spray chilling or spray cooling, extrusion, freeze drying, coacervation and molecular inclusion. The choice of appropriate microencapsulation technique depends upon the end use of the product and the processing conditions involved in the manufacturing product. This overview describes each method cited above in terms of the basic chemical and/or physical principles involved and covers mechanisms of flavour release from food matrices.

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Beneficial effects and oxidative stability of omega-3 long-chain polyunsaturated fatty acids

Arab‐Tehrany

Jacquot

Gaiani

et al. 2012

Trends in Food Science & Technology

257

142

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How surface composition of high milk proteins powders is influenced by spray-drying temperature

Gaiani

Morand

Sánchez

et al. 2010

Colloids and Surfaces B: Biointerfaces

121

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Microstructure and physico-chemical evaluation of nano-emulsion-based antimicrobial peptides embedded in bioactive packaging films

Imran¹,

Revol-Junelles²,

René³

et al. 2012

Food Hydrocolloids

158

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Muriel Jacquot

Poly‐Lactic Acid: Production, Applications, Nanocomposites, and Release Studies

Flavour encapsulation and controlled release – a review

Beneficial effects and oxidative stability of omega-3 long-chain polyunsaturated fatty acids

How surface composition of high milk proteins powders is influenced by spray-drying temperature

Microstructure and physico-chemical evaluation of nano-emulsion-based antimicrobial peptides embedded in bioactive packaging films

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