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PEOPLE@HES-SO - Verzeichnis der Mitarbeitenden und Kompetenzen
PEOPLE@HES-SO - Verzeichnis der Mitarbeitenden und Kompetenzen

PEOPLE@HES-SO
Verzeichnis der Mitarbeitenden und Kompetenzen

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Brodard Pierre

Brodard Pierre

Professeur HES associé

Hauptkompetenzen

Physical chemistry

Raman spectroscopy

Thermal analysis

Materials characterization

Polymers caharacterization

Thermal safety

Surface imaging

  • Kontakt

  • Lehre

  • Forschung

  • Publikationen

Hauptvertrag

Professeur HES associé

Telefon-Nummer: +41 26 429 67 19

Büro: HEIA_B20.03

Haute école d'ingénierie et d'architecture de Fribourg
Boulevard de Pérolles 80, 1700 Fribourg, CH
HEIA-FR
BSc HES-SO en Chimie - Haute école d'ingénierie et d'architecture de Fribourg
  • Mécanique quantique
  • Spectroscopie optique
  • Travaux pratiques de chimie physique

Abgeschlossen

Bio-based smart packaging for enhanced preservation of food quality
AGP

Rolle: Mitarbeiter

Financement: FR - EIA - Institut iRAP; Horizon 2020; FR - EIA - Institut iRAP

Description du projet : The BIOSMART project proposal has the ambition to develop active and smart bio-based and compostable packages addressing the needs of several food market segments. The knowledge gained from developing the novel packages forms the basis for tailoring performance and functionality to other flexible and rigid food packages in diverse market segments. An holistic ecosystem approach is pursued by offering solutions that bring enhanced performance and acceptable economics to the packaging value chain to facilitate their implementation and large-scale commercialization. Critical issues that differentiate the present packages from the future all-bio-based and compostable ones are enhanced active and smart functionalities that make possible: light weighting, reduced food residues, shelf life monitoring and longer shelf life, easier consumer waste handling, and all this at a competitive cost to the incumbent. The BIOSMART project proposal develops an approach for selectively integrating superhydrophobic surfaces, microencapsulated phase change materials (thermoregulation), barrier coatings, very low cost sensor devices, and new bio-based and active ingredients (anti-microbial, anti-fungal, and antioxidants), into all-bio-based compostable packages. Three generic packaging systems are selected with specific performance needs as defined by current multi-material fossil-fuel based packages (i.e. pouches, terrines and an hybrid carton/thin film tray). The associate life cycle assessments for the different possible scenarios include the economic feasibility as a defining key performance indicator. Ultimately, the gathered developmental knowledge is consolidated in a material selection and package performance simulation Application. It enables through optimization of key performance indicators and representing emulators a quick selection of relevant plastics, packaging composition, and cost.

Forschungsteam innerhalb von HES-SO: Brodard Pierre , Hennebert Jean , Blanchard Lucien , Albergati Luce , Esseiva Julien , Zurbuchen Nicolas , Ayer Baptiste , Koopmans Rudolf , Mavrozoumi Vasiliki , Rychener Lorenz , Marti Roger

Partenaires académiques: FR - EIA - Institut ChemTech; FR - EIA - Institut iCoSys

Durée du projet: 01.04.2017 - 31.10.2021

Montant global du projet: 948'840 CHF

Statut: Abgeschlossen

2013

Non-destructive Localization and Identification of Active Pharmaceutical Compounds by Raman Chemical Imaging
Wissenschaftlicher Artikel

Brodard Pierre, Roth Samuel, Vorlet Olivier

CHIMIA, 2013 , vol.  67, no  12, pp.  923-924

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