| Nome |
# |
|
Effect of MAP on physico-chemical characteristics of shell hen eggs, file 89ab5710-7657-48ef-8e44-1b6b9d1304af
|
304
|
|
Microbial Degradation of Synthetic Biopolymers Waste, file dfe4d229-b65b-bb0a-e053-d805fe0a78d9
|
156
|
|
DESIGN OF INNOVATIVE POLYMERIC MATERIALS FOR SUSTAINABLE FOOD PACKAGING, file dfe4d229-bad8-bb0a-e053-d805fe0a78d9
|
81
|
|
Characterization of active edible films based on citral essential oil, alginate and pectin, file dfe4d229-c04d-bb0a-e053-d805fe0a78d9
|
76
|
|
Gas permeability, mechanical behaviour and compostability of fully-aliphatic bio-based multiblock poly(ester urethane)s, file dfe4d22b-c3b4-bb0a-e053-d805fe0a78d9
|
64
|
|
PHYSICAL PROPERTIES OF PECTIN-ALGINATE-WHEY PROTEIN EDIBLE FILMS, file dfe4d229-bada-bb0a-e053-d805fe0a78d9
|
47
|
|
State-of-art of standard and innovative materials used in cranioplasty, file dfe4d22e-d9ee-bb0a-e053-d805fe0a78d9
|
43
|
|
Fully Biobased Superpolymers of 2,5-Furandicarboxylic Acid with Different Functional Properties: From Rigid to Flexible, High Performant Packaging Materials, file dfe4d22d-858c-bb0a-e053-d805fe0a78d9
|
41
|
|
Novel random copolymers of poly(butylene 1,4-cyclohexane dicarboxylate) with outstanding barrier properties for green and sustainable packaging: Content and length of aliphatic side chains as efficient tools to tailor the material's final performance, file dfe4d229-c049-bb0a-e053-d805fe0a78d9
|
40
|
|
A LIFE CYCLE ASSESSMENT APPLICATION OF POLYLACTIC ACID TRAYS PRODUCTION FOR FRESH-FOOD PACKAGING, file dfe4d229-bad6-bb0a-e053-d805fe0a78d9
|
31
|
|
Poly(propylene 2,5-thiophenedicarboxylate) vs. Poly(propylene 2,5-furandicarboxylate): Two examples of high gas barrier bio-based polyesters, file dfe4d229-c047-bb0a-e053-d805fe0a78d9
|
26
|
|
Bio-based and one-day compostable poly(diethylene 2,5-furanoate) for sustainable flexible food packaging: Effect of ether-oxygen atom insertion on the final properties, file dfe4d22e-e4da-bb0a-e053-d805fe0a78d9
|
21
|
|
Socio-economic requirements as a fundament of innovation in food packaging, file dfe4d229-bcd5-bb0a-e053-d805fe0a78d9
|
15
|
|
Novel random PBS-based copolymers containing aliphatic side chains for sustainable flexible food packaging, file dfe4d228-d88e-bb0a-e053-d805fe0a78d9
|
14
|
|
Poly(neopentyl glycol furanoate): A member of the furan-based polyester family with smart barrier performances for sustainable food packaging applications, file dfe4d228-dda7-bb0a-e053-d805fe0a78d9
|
14
|
|
Performance of poly(lactic acid) surface modified films for food packaging application, file dfe4d228-2250-bb0a-e053-d805fe0a78d9
|
13
|
|
Block copolyesters containing 2,5-furan and trans-1,4-cyclohexane subunits with outstanding gas barrier properties, file dfe4d229-c054-bb0a-e053-d805fe0a78d9
|
13
|
|
How stress treatments influence the performance of biodegradable poly(butylene succinate)-based copolymers with thioether linkages for food packaging applications, file dfe4d228-df2b-bb0a-e053-d805fe0a78d9
|
12
|
|
Poly(butylene 2,5-thiophenedicarboxylate): An added value to the class of high gas barrier biopolyesters, file dfe4d228-d300-bb0a-e053-d805fe0a78d9
|
11
|
|
Barrier properties of poly(propylene cyclohexanedicarboxylate) random eco-friendly copolyesters, file dfe4d229-c044-bb0a-e053-d805fe0a78d9
|
11
|
|
Poli(propilene 2,5-tiofenedicarbossilato) vs. Poli(propilene 2,5-furandicarbossilato): due esempi di poliesteri biobased ad elevate proprietà barriera ai gas, file dfe4d229-b755-bb0a-e053-d805fe0a78d9
|
9
|
|
Decontamination of food packages from SARS-COV-2 RNA with a cold plasma-assisted system, file dfe4d22e-c4db-bb0a-e053-d805fe0a78d9
|
8
|
|
Bio-Polyethylene (Bio-PE), Bio-Polypropylene (Bio-PP) and Bio-Poly(ethylene terephthalate) (Bio-PET): Recent Developments in Bio-Based Polymers Analogous to Petroleum-Derived Ones for Packaging and Engineering Applications, file dfe4d22d-3667-bb0a-e053-d805fe0a78d9
|
7
|
|
Life cycle sustainability analysis of resource recovery from waste management systems in a circular economy perspective Key Findings from This Special Issue, file dfe4d22e-82b8-bb0a-e053-d805fe0a78d9
|
7
|
|
A Novel Approach for Glycero-(9,10-Trioxolane)-Trialeate Incorporation into Poly(lactic Acid)/Poly(ɛ-Caprolacton) Blends for Biomedicine and Packaging, file ca56e862-4432-4059-ac4f-eeecfb07437f
|
6
|
|
Gas transport phenomena and polymer dynamics in PHB/PLA blend films as potential packaging materials, file dfe4d22d-c3fd-bb0a-e053-d805fe0a78d9
|
6
|
|
The Use of Thermal Techniques in the Characterization of Bio-Sourced Polymers, file dfe4d22e-b23e-bb0a-e053-d805fe0a78d9
|
6
|
|
Introduction to the special issue “Sustainability Issues of Food Processing and Packaging: the Role of Life Cycle Assessment”, file dfe4d22e-c4d9-bb0a-e053-d805fe0a78d9
|
6
|
|
Poly(Alkylene 2,5-thiophenedicarboxylate) polyesters: A new class of bio-based high-performance polymers for sustainable packaging, file dfe4d22e-c4dd-bb0a-e053-d805fe0a78d9
|
6
|
|
Effect of glycero-(9,10-trioxolane)-trialeate on the physicochemical properties of non-woven polylactic acid fiber materials, file dfe4d22e-de92-bb0a-e053-d805fe0a78d9
|
6
|
|
Multifunctional Application of Biopolymers and Biomaterials, file 16f55160-dd4c-4be0-a7a4-276b9c2ba865
|
5
|
|
Poly(butylene 2,4-furanoate), an Added Member to the Class of Smart Furan-Based Polyesters for Sustainable Packaging: Structural Isomerism as a Key to Tune the Final Properties, file dfe4d22e-d1f9-bb0a-e053-d805fe0a78d9
|
5
|
|
Chemical modification of poly(Butylene trans-1,4-cyclohexanedicarboxylate) by camphor: A new example of bio-based polyesters for sustainable food packaging, file dfe4d22e-daec-bb0a-e053-d805fe0a78d9
|
5
|
|
Recommendations for replacing PET on packaging, fiber, and film materials with biobased counterparts, file dfe4d22e-daf1-bb0a-e053-d805fe0a78d9
|
5
|
|
Priamine 1075 and catechol carbonate, a perfect match for ecofriendly production of a new renewable polyurea for sustainable flexible food packaging, file 9a97adb1-bc08-478c-bb83-f1df9b920df8
|
4
|
|
“Polymers from Renewable Resources”: Key Findings from This Topic Special Issue, file b2af176f-8833-443d-a164-309332303f19
|
4
|
|
Chitin Nanocomposite Based on Plasticized Poly(lactic acid)/Poly(3-hydroxybutyrate) (PLA/PHB) Blends as Fully Biodegradable Packaging Materials, file d4bb9713-5a42-49d9-8554-2a2f322f36dd
|
4
|
|
Life-Cycle Assessment in the Polymeric Sector: A Comprehensive Review of Application Experiences on the Italian Scale, file dfe4d22b-693f-bb0a-e053-d805fe0a78d9
|
4
|
|
Life-cycle assessment in the polymeric sector: A comprehensive review of application experiences on the Italian scale, file 175c33ae-686b-429c-8b8b-337e76284202
|
3
|
|
High-performance sustainable active packaging from poly(hexamethylene furanoate) and bark extracts, file 21a35071-1178-46c2-9c16-d66378430731
|
3
|
|
Cryo-Structuring of Polymeric Systems. Poly(Vinyl Alcohol)-Based Cryogels Loaded with the Poly(3-hydroxybutyrate) Microbeads and the Evaluation of Such Composites as the Delivery Vehicles for Simvastatin, file 52189af6-419e-485d-8e7b-782fec6bf666
|
3
|
|
New Random Aromatic/Aliphatic Copolymers of 2,5-Furandicarboxylic and Camphoric Acids with Tunable Mechanical Properties and Exceptional Gas Barrier Capability for Sustainable Mono-Layered Food Packaging, file 769abb3d-5fca-49c4-8f69-1aefc8b8d9ec
|
3
|
|
New fully bio-based PLLA triblock copoly(ester urethane)s as potential candidates for soft tissue engineering, file dfe4d229-b092-bb0a-e053-d805fe0a78d9
|
3
|
|
Natural Gum-Based Functional Bioactive Films and Coatings: A Review, file 0765857a-3584-4d4e-8fb9-64582a35c9c9
|
2
|
|
Employing Cellulose Nanofiber-Based Hydrogels for Burn Dressing, file 26b1b86e-547c-43e9-bdd1-92676b77e54e
|
2
|
|
Evidence of a 2D-Ordered Structure in Biobased Poly(pentamethylene furanoate) Responsible for Its Outstanding Barrier and Mechanical Properties, file 3629c493-4662-429c-a9d9-19df74e70f9e
|
2
|
|
Polymer–CNT composites for food packaging, file 4321661d-1014-4fa4-9850-8f3f348a0c92
|
2
|
|
Studying physical state of films based on casava starch and/or chitosan by dielectric and thermal properties and effects of pitanga leaf hydroethanolic extract, file 9a8854a5-1fca-40fb-9fd3-43e395ad1c28
|
2
|
|
Spent-coffee grounds as a zero-burden material blended with bio-based poly(butylene succinate) for production of bio-composites: Findings from a Life Cycle Assessment application experience, file cc048491-cb21-4044-98ca-38c8937f2421
|
2
|
|
Improvement of the Structure and Physicochemical Properties of Polylactic Acid Films by Addition of Glycero-(9,10-trioxolane)-Trialeate, file dd733757-0796-4981-8375-e596ce24b978
|
2
|
|
Biobased and Compostable Multiblock Copolymer of Poly(l-lactic acid) Containing 2,5-Furandicarboxylic Acid for Sustainable Food Packaging: The Role of Parent Homopolymers in the Composting Kinetics and Mechanism, file de5b5523-a1ac-4c40-ada4-ee3d4c4cdcb7
|
2
|
|
Kinetic study of the thermal and thermo-oxidative degradations of polylactide-modified films for food packaging, file dfe4d227-b581-bb0a-e053-d805fe0a78d9
|
2
|
|
PLLA-PHB fiber membranes obtained by solvent-free electrospinning for short-time drug delivery, file dfe4d228-c927-bb0a-e053-d805fe0a78d9
|
2
|
|
Biobased Plastics for Food Packaging, file dfe4d229-c0c8-bb0a-e053-d805fe0a78d9
|
2
|
|
Energy and environmental assessment of industrial hemp for building applications: A review, file dfe4d22b-4b01-bb0a-e053-d805fe0a78d9
|
2
|
|
Bio-based aliphatic/aromatic poly(trimethylene furanoate/sebacate) random copolymers: Correlation between mechanical, gas barrier performances and compostability and copolymer composition, file dfe4d22e-e5f8-bb0a-e053-d805fe0a78d9
|
2
|
|
Surface Modification of Polymers for Food Science, file 95856af3-6326-4f22-bf33-5bb48542a46b
|
1
|
|
Structure, dynamics and barrier performance relationship in furan-based polyesters, file ac80a330-e25a-455d-b23f-03591a0b0c79
|
1
|
|
Ozonation of Non-Woven Ultrathin Fibrous Biomaterials for Medical and Packaging Implementations, file b7f77bb1-7739-4243-a580-408a98b91220
|
1
|
|
Food Packaging Permeability Behaviour: A report, file dfe4d226-ffb1-bb0a-e053-d805fe0a78d9
|
1
|
|
Poly(lactic acid)-Modified Films for Food Packaging
Application: Physical, Mechanical, and Barrier Behavior, file dfe4d227-0e87-bb0a-e053-d805fe0a78d9
|
1
|
|
Gas permeability and thermal behaviour of Polypropylene films used for packaging minimally processed fresh-cut potatoes: a case study, file dfe4d227-27fe-bb0a-e053-d805fe0a78d9
|
1
|
|
Environmental assessment of a multilayer polymer bag for food packaging and preservation: An LCA approach, file dfe4d227-32dc-bb0a-e053-d805fe0a78d9
|
1
|
|
Gas Barrier and Thermal Behavior of Long Chain Aliphatic Polyesters after Stressed Treatments, file dfe4d228-2578-bb0a-e053-d805fe0a78d9
|
1
|
|
Innovation trend on sustainable bioplastics: the case of furanoate, file dfe4d229-b757-bb0a-e053-d805fe0a78d9
|
1
|
|
Quality- and sustainability-
related issues associated with
biopolymers for food packaging
applications: a comprehensive
review (Chapter 14), file dfe4d229-b8a8-bb0a-e053-d805fe0a78d9
|
1
|
|
Intelligent packaging to improve shelf life, file dfe4d229-b8ab-bb0a-e053-d805fe0a78d9
|
1
|
|
Sustainable Packaging (Chapter 8), file dfe4d229-bad3-bb0a-e053-d805fe0a78d9
|
1
|
|
The potential roles of bio-economy in the transition to equitable, sustainable, post fossil-carbon societies: Findings from this virtual special issue, file dfe4d229-c051-bb0a-e053-d805fe0a78d9
|
1
|
|
Characterization and properties of polyethersulfone/ modified cellulose nanocrystals nanocomposite membranes, file dfe4d229-c056-bb0a-e053-d805fe0a78d9
|
1
|
|
Food Waste for Sustainable Packaging Materials, file dfe4d229-c0ca-bb0a-e053-d805fe0a78d9
|
1
|
|
Poly(butylene succinate) and poly(butylene succinate-co-adipate) for food packaging applications: Gas barrier properties after stressed treatments, file dfe4d22a-ea82-bb0a-e053-d805fe0a78d9
|
1
|
|
Effect of molecular architecture and chemical structure on solid-state and barrier properties of heteroatom-containing aliphatic polyesters, file dfe4d22b-c3a8-bb0a-e053-d805fe0a78d9
|
1
|
|
Novel biodegradable aliphatic copolyesters based on poly(butylene succinate) containing thioether-linkages for sustainable food packaging applications, file dfe4d22b-c3b3-bb0a-e053-d805fe0a78d9
|
1
|
|
Effect of different new packaging materials on biscuit quality during accelerated storage, file dfe4d22b-e859-bb0a-e053-d805fe0a78d9
|
1
|
|
Design of fully aliphatic multiblock poly(ester urethane)s displaying thermoplastic elastomeric properties, file dfe4d22b-e85a-bb0a-e053-d805fe0a78d9
|
1
|
|
Novel fully biobased poly(butylene 2,5-furanoate/diglycolate) copolymers containing ether linkages: Structure-property relationships, file dfe4d22c-1e37-bb0a-e053-d805fe0a78d9
|
1
|
|
Packaging Material in the Food Industry, file dfe4d22d-d072-bb0a-e053-d805fe0a78d9
|
1
|
|
The Use of Polylactic Acid in Food Packaging, file dfe4d22d-d073-bb0a-e053-d805fe0a78d9
|
1
|
|
Novel Biobased Polylactic Acid/Poly(pentamethylene 2,5-furanoate) Blends for Sustainable Food Packaging, file dfe4d22e-daef-bb0a-e053-d805fe0a78d9
|
1
|
|
New multi-block copolyester of 2,5-furandicarboxylic acid containing PEG-like sequences to form flexible and degradable films for sustainable packaging, file eb01c63d-39f0-4d7e-a6aa-5e0f7806d532
|
1
|
|
Characterization of composite edible films based on pectin/alginate/whey protein concentrate, file ffae5862-3559-402e-b8b8-611d259228d6
|
1
|
| Totale |
1.203 |