 EcoPlastiC Steering Meeting (SM) took place on 29 November 2024 where the partners highlighted the latest updates and presented plans for 2025.

 is working on scaling up the process of PHA production to 10 L and after that AVE will scale up to 50 L. The microbiome developed in the 

 was selected for the scale up process due to its TPA removal efficiency, high volumetric productivity and good PHA content. The optimisation of PHA recovery included several strategies. When supercritical carbon-dioxide (sc-CO2) was employed (

), pre-treatment and extraction showed improved cell rupture and PHA recovery. Films made from this biomass exhibited flexibility and cohesiveness, which is a step forward for packaging applications. Enzymatic treatments were assessed at 

, where a successful extraction of PHB (60% biomass) and mcl-PHA (20% biomass) was observed. Astonishing 100 % recovery of PHB was achieved and about 50% of mcl-PHA recovery. Within the task on biopolymer characterization and processing (

), the film forming capacity of PHA-rich biomass was tested. These films were tested under varying temperature and pressure conditions. It was shown that temperatures below 130°C produced optimal results, preventing brittleness. Additionally, glycerol addition improved flexibility and reduced brittleness.

 is scaling up the YB423 sample biomass, currently, the process achieved 4.45 g/L of freeze-dried biomass. The next step will involve transitioning to a bioreactor with sufficient oxygen supply and after that the crude protein content in single-cell protein and biomass will be determined. Additionally, compression tests were conducted to produce PHA films using commercialized PHA pellets and compared them with the pure PHB-HV samples by NOVA, focusing on properties such as barrier performance, tensile strength and other mechanical characteristics. 

 are working on publications of the WP5 results concerning ecoplastic films.

 is preparing the EcoPlastiC Newsletter #3 for December 2024. You can read the previous issues 

 and subscribe to our mailing list at this 

. A new EcoPlastiC promotional video was prepared and will be included in the Newsletter #3. The Key Performance Indicators (KPIs) have improved between year 1 and year 2 of the project and the numbers keep going up in year 3.

Representatives from all partner institutions attended the SM:

 (Ireland) - Marija Mojicevic, Laura Rodriguez Barroso, Bor Shin Chee, Cuneyt Erdinct Tas, Buket Alkan Tas, Necdet Ozcelik, Eduardo Lanzagorta Garcia

 (Team Leader), Patricia Concordio dos Reis, Maria Nicolau Batista

 (Team Leader), Jelena Simic, Marijana Ponjavic

 (Team Leader), Kiran Reddy Baddigam, Anna Svagen Hanner

Regular EcoPlastiC SMs are organised each 2 months, to make sure this project moves forward according to plans.

Seventh EcoPlastiC Steering Meeting

2nd European Society of Applied Biocatalysis (

 was taking place online from 25-27 November 2024, featuring an exceptional program of cutting-edge science, world-class plenary talks and interactive sessions that made it a must-attend for anyone working in biocatalysis, enzyme engineering and related fields. The congress was organized into 

 of which were plenary lectures, and each day was concluded with an 

 (16 postersin total), offering direct engagement and discussion opportunities. The congress was followed by 

The lectures covered numerous contemporary topics:

Systems metabolic engineering and its applications

Beyond nature: Embracing nature’s catalysts

Our digital methods in enzyme engineering: from screening to soluble expression of the beneficial genes

Lab–based scale-down approaches to understand enzyme stability under industrial conditions

Exploring and exploiting nature's toolkit for complex natural product (bio-)synthesis

Biocatalytic applications of plant enzymes in alkaloid synthesis

From femtoliter enzymatic reactor to ton/year chemical plant by micro- and nanofluidics

Discovery & engineering of biocatalysts for organic synthesis

Development and applications of activity-based probes in glycol-science

The EcoPlastiC project results were presented in a poster “Greener extraction of intracellular poly(3-hydroxybutyrate) from 

 biomass using enzyme cocktails and deep eutectic solvents” authored by Sanja Skaro Bogojevic (IMGGE), Jelena Simic (IMGGE), Sanja Jeremic (IMGGE), Jasmina Nikodinovic-Runic (IMGGE), Maciej Guzik (IKiFP PAN) and Marijana Ponjavic (IMGGE).

Photo of the presenting author Dr Sanja Skaro Bogojevic during her poster presentation

2nd European Society of Applied Biocatalysis (ESAB) Congress

The escalating global concern regarding plastic waste accumulation and its detrimental environmental impact has driven the exploration of sustainable alternatives to conventional petroleum-based plastics. This study investigates the development of antimicrobial blends of bacterial nanocellulose (BNC) derived from plastic waste and polyhydroxyalkanoates (PHB), further enhanced with essential oils. The antimicrobial activity of the resulting BNC/PHB blends was tested in vitro against 

. The incorporation of essential oils, particularly cinnamon oil, significantly enhanced the antimicrobial properties of the BNC/PHB blends. The BNC with 5% PHB blend exhibited the highest antifungal inhibition against 

 at 90.25%. Additionally, blends with 2% and 10% PHB also showed antifungal activity, inhibiting 68% of 

 growth. These findings highlight the potential of incorporating essential oils into BNC/PHB blends to create effective antimicrobial materials. The study concludes that enhancing the antimicrobial properties of BNC/PHB significantly broadens its potential applications across various sectors, including wound dressings, nanofiltration masks, controlled-release fertilizers, and active packaging.

Development of Antimicrobial Blends of Bacteria Nanocellulose Derived from Plastic Waste and Polyhydroxybutyrate Enhanced with Essential Oils