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Alipal J, Mohd Pu’ad NAS, Lee TC, Nayan NHM, Sahari N, et al. 2021. A review of gelatin: properties, sources, process, applications, and commercialisation. Materials Today: Proceedings 42:240−50

Roha PPK, Bichukale AD. 2018. Functional properties of gelatin extracted from poultry skin and bone waste. International Journal of Pure & Applied Bioscience 6(4):87−101

Lu Y, Luo Q, Chu Y, Tao N, Deng S, et al. 2022. Application of gelatin in food packaging: a review. Polymers 14(3):436

Nazmi NN, Isa MIN, Sarbon NM. 2017. Preparation and characterization of chicken skin gelatin/CMC composite film as compared to bovine gelatin film. Food Bioscience 19:149−55

Umaraw P, Verma AK. 2017. Comprehensive review on application of edible film on meat and meat products: an eco-friendly approach. Critical Reviews in Food Science and Nutrition 57(6):1270−79

Zhang H, Liang Y, Li X, Kang H. 2020. Effect of chitosan-gelatin coating containing nano-encapsulated tarragon essential oil on the preservation of pork slices. Meat Science 166:108137

Jafarzadeh S, Mohammadi Nafchi A, Salehabadi A, Oladzad-abbasabadi N, Jafari SM. 2021. Application of bio-nanocomposite films and edible coatings for extending the shelf life of fresh fruits and vegetables. Advances in Colloid and Interface Science 291:102405

Kanmani P, Rhim JW. 2014. Physicochemical properties of gelatin/silver nanoparticle antimicrobial composite films. Food Chemistry 148:162−69

Ramos M, Valdés A, Beltrán A, Garrigós M. 2016. Gelatin-based films and coatings for food packaging applications. Coatings 6(4):41

Zhang R, Liu R, Han J, Ren L, Jiang L. 2024. Protein-based packaging films in food: developments, applications, and challenges. Gels 10(7):418

Rigueto CVT, Rosseto M, Loss RA, dos Santos Richards NSP, Dettmer A, et al. 2022. Gelatin-based polymeric films for applications in food packaging: an overview of advances, challenges, and perspectives. Ciência Rural 53(2):e20210679

Said NS, Sarbon NM. 2022. Physical and mechanical characteristics of gelatin-based films as a potential food packaging material: a review. Membranes 12(5):442

da Trindade Alfaro A, Balbinot E, Weber CI, Tonial IB, Machado-Lunkes A. 2015. Fish gelatin: characteristics, functional properties, applications and future potentials. Food Engineering Reviews 7(1):33−44

Soo PY, Sarbon NM. 2018. Preparation and characterization of edible chicken skin gelatin film incorporated with rice flour. Food Packaging and Shelf Life 15:1−8

Samatra MY, Noor NQIM, Razali UHM, Bakar J, Shaarani SM. 2022. Bovidae-based gelatin: extractions method, physicochemical and functional properties, applications, and future trends. Comprehensive Reviews in Food Science and Food Safety 21(4):3153−76

Abedinia A, Mohammadi Nafchi A, Sharifi M, Ghalambor P, Oladzadabbasabadi N, et al. 2020. Poultry gelatin: characteristics, developments, challenges, and future outlooks as a sustainable alternative for mammalian gelatin. Trends in Food Science & Technology 104:14−26

Nitsuwat S, Zhang P, Ng K, Fang Z. 2021. Fish gelatin as an alternative to mammalian gelatin for food industry: a meta-analysis. LWT 141:110899

Shahiri Tabarestani H, Maghsoudlou Y, Motamedzadegan A, Sadeghi Mahoonak AR. 2014. Effect of pretreatment conditions on physicochemical properties of rainbow trout skin gelatin. Journal of Aquatic Food Product Technology 23(1):14−24

Tohmadlae P, Worawattanamateekul W, Hinsui J. 2019. Tilapia gelatin: elimination of fishy odor. Recent Science and Technology 11(3):402−11

Mariod AA. 2016. Extraction, purification, and modification of natural polymers. In Natural Polymers: Industry Techniques and Applications. ed. Olatunji O. Cham: Springer International Publishing. pp. 63−91 doi: 10.1007/978-3-319-26414-1_3

Ma Z, Mondor M, Goycoolea Valencia F, Hernández-Álvarez AJ. 2023. Current state of insect proteins: extraction technologies, bioactive peptides and allergenicity of edible insect proteins. Food & Function 14(18):8129−56

de Albuquerque RS, de Aguiar Bernardo YA, Conte-Junior CA. 2025. Edible insects as an alternative protein source in meat products: advantages, challenges, limitations, and gaps. European Food Research and Technology

Mishyna M, Martinez JI, Chen J, Benjamin O. 2019. Extraction, characterization and functional properties of soluble proteins from edible grasshopper (Schistocerca gregaria) and honey bee (Apis mellifera). Food Research International 116:697−706

Haber M, Mishyna M, Itzhak Martinez JJ, Benjamin O. 2019. The influence of grasshopper (Schistocerca gregaria) powder enrichment on bread nutritional and sensorial properties. LWT 115:108395

Mustafa NEM, Mariod AA, Matthäus B. 2008. Antibacterial activity of Aspongopus viduatus (melon bug) oil. Journal of Food Safety 28(4):577−86

Mariod A, Matthäus B, Eichner K, Hussein IH. 2006. Effects of processing on the quality and stability of three unconventional Sudanese oils. European Journal of Lipid Science and Technology 108(4):298−308

Valcarcel J, Fraguas J, Hermida-Merino C, Hermida-Merino D, Piñeiro MM, et al. 2021. Production and physicochemical characterization of gelatin and collagen hydrolysates from turbot skin waste generated by aquaculture activities. Marine Drugs 19(9):491

Rich A, Crick FHC. 2018. The structure of collagen. In The Excitement of Discovery: Selected Papers of Alexander Rich. Singapore: World Scientific Publishing Co Pte Ltd. pp. 103–4 doi: 10.1142/9789813272682_0010

Xu W, Yu Q, Zhang Y, Fu Y, Cheng Q, et al. 2024. Insight into the mechanism of the decrease in mechanical strength and water-holding capacity of gels made from oxidized gelatin. International Journal of Biological Macromolecules 258:128842

Bigi A, Panzavolta S, Rubini K. 2004. Relationship between triple-helix content and mechanical properties of gelatin films. Biomaterials 25(25):5675−80

Bagal-Kestwal DR, Pan MH, Chiang BH. 2019. Properties and applications of gelatin, pectin, and carrageenan gels. In Bio Monomers for Green Polymeric Composite Materials. eds. Visakh PM, Bayraktar O, Menon G. USA: Wiley. pp. 117−40 doi: 10.1002/9781119301714.ch6

Velaga SP, Nikjoo D, Vuddanda PR. 2018. Experimental studies and modeling of the drying kinetics of multicomponent polymer films. AAPS PharmSciTech 19(1):425−35

Kumar L, Ramakanth D, Akhila K, Gaikwad KK. 2022. Edible films and coatings for food packaging applications: a review. Environmental Chemistry Letters 20(1):875−900

Leite LSF, Ferreira CM, Corrêa AC, Moreira FKV, Mattoso LHC. 2020. Scaled-up production of gelatin-cellulose nanocrystal bionanocomposite films by continuous casting. Carbohydrate Polymers 238:116198

Damayanti R, Tamrin, Alfian Z, Eddyanto. 2021. Preparation film gelatin PVA/gelatin and characterization mechanical properties. AIP Conference Proceedings 2342(1):060004

Cai J, Xiao J, Chen X, Liu H. 2020. Essential oil loaded edible films prepared by continuous casting method: effects of casting cycle and loading position on the release properties. Food Packaging and Shelf Life 26:100555

Calderón-Castro A, Vega-García MO, de Jesús Zazueta-Morales J, Fitch-Vargas PR, Carrillo-López A, et al. 2018. Effect of extrusion process on the functional properties of high amylose corn starch edible films and its application in mango (Mangifera indica L.) cv. Tommy Atkins. Journal of Food Science and Technology 55(3):905−14

Skurtys O, Acevedo C, Pedreschi F, Enronoe J, Osorio F, et al. 2010. Food hydrocolloid edible films and coatings. In Food Hydrocolloids: Characteristics, Properties and Structures. ed. Hollingworth CS. USA: Nova Science Pub Inc. pp. 41−80 https://investigadores.uandes.cl/en/publications/food-hydrocolloid-edible-films-and-coatings

Andreuccetti C, Carvalho RA, Galicia-García T, Martinez-Bustos F, González-Nuñez R, et al. 2012. Functional properties of gelatin-based films containing Yucca schidigera extract produced via casting, extrusion and blown extrusion processes: a preliminary study. Journal of Food Engineering 113(1):33−40

Chen X, Liu Z, Ma W, Wang H, Dong Q, et al. 2024. High strength and water tolerance fish gelatin-xanthan gum acid-induced electrostatic film by melt extrusion method. Food Hydrocolloids 151:109769

Wu H, Li T, Peng L, Wang J, Lei Y, et al. 2023. Development and characterization of antioxidant composite films based on starch and gelatin incorporating resveratrol fabricated by extrusion compression moulding. Food Hydrocolloids 139:108509

Li T, Li R, Luo H, Peng L, Wang J, et al. 2024. Eggshell powder as a bio-filler for starch and gelatin: ternary biodegradable composite films manufactured by extrusion compression molding. Food Hydrocolloids 150:109632

Deng L, Li Y, Zhang A, Zhang H. 2020. Characterization and physical properties of electrospun gelatin nanofibrous films by incorporation of nano-hydroxyapatite. Food Hydrocolloids 103:105640

Zhang C, Li Y, Wang P, Zhang H. 2020. Electrospinning of nanofibers: potentials and perspectives for active food packaging. Comprehensive Reviews in Food Science and Food Safety 19(2):479−502

Ranganathan S, Balagangadharan K, Selvamurugan N. 2019. Chitosan and gelatin-based electrospun fibers for bone tissue engineering. International Journal of Biological Macromolecules 133:354−64

Slejko EA, Carraro G, Huang X, Smerieri M. 2024. Advances in the fabrication, properties, and applications of electrospun PEDOT-based conductive nanofibers. Polymers 16(17):2514

Li M, Yu H, Xie Y, Guo Y, Cheng Y, et al. 2021. Fabrication of eugenol loaded gelatin nanofibers by electrospinning technique as active packaging material. LWT 139:110800

Liu Y, Wang D, Sun Z, Liu F, Du L, et al. 2021. Preparation and characterization of gelatin/chitosan/3-phenylacetic acid food-packaging nanofiber antibacterial films by electrospinning. International Journal of Biological Macromolecules 169:161−70

Wang P, Li Y, Zhang C, Feng F, Zhang H. 2020. Sequential electrospinning of multilayer ethylcellulose/gelatin/ethylcellulose nanofibrous film for sustained release of curcumin. Food Chemistry 308:125599

Senturk Parreidt T, Schmid M, Müller K. 2018. Effect of dipping and vacuum impregnation coating techniques with alginate based coating on physical quality parameters of cantaloupe melon. Journal of Food Science 83(4):929−36

Valdés A, Ramos M, Beltrán A, Jiménez A, Garrigós M. 2017. State of the art of antimicrobial edible coatings for food packaging applications. Coatings 7(4):56

Costa C, Conte A, Del Nobile MA. 2014. Effective preservation techniques to prolong the shelf life of ready-to-eat oysters. Journal of the Science of Food and Agriculture 94(13):2661−67

Andrade RD, Skurtys O, Osorio FA. 2012. Atomizing spray systems for application of edible coatings. Comprehensive Reviews in Food Science and Food Safety 11(3):323−37

Jose A, Pareek S, Radhakrishnan EK. 2020. Advances in edible fruit coating materials. In Advances in Agri-Food Biotechnology. eds. Sharma TR, Deshmukh R, Sonah H. Singapore: Springer Singapore. pp. 391−408 doi: 10.1007/978-981-15-2874-3_15

Bari A, Giannouli P. 2022. Evaluation of biodegradable gelatin and gelatin–rice starch coatings to fresh cut zucchini slices. Horticulturae 8(11):1031

Salsabiela S, Sekarina AS, Bagus H, Audiensi A, Azizah F, et al. 2022. Development of edible coating from gelatin composites with the addition of black tea extract (Camellia sinensis) on minimally processed watermelon (Citrullus lanatus). Polymers 14(13):2628

Heristika W, Ningrum A, Supriyadi, Munawaroh HSH, Show PL. 2023. Development of composite edible coating from gelatin-pectin incorporated garlic essential oil on physicochemical characteristics of red chili (Capsicum annnum L.). Gels 9(1):49

Peretto G, Du WX, Avena-Bustillos RJ, De J Berrios J, Sambo P, et al. 2017. Electrostatic and conventional spraying of alginate-based edible coating with natural antimicrobials for preserving fresh strawberry quality. Food and Bioprocess Technology 10(1):165−74

Moradi C, Hosseini E, Rousta E. 2025. Bitter almond gum-fish gelatin conjugate coatings extend the storage of button mushrooms. Postharvest Biology and Technology 222:113356

Gedarawatte STG, Ravensdale JT, Johns ML, Azizi A, Al-Salami H, et al. 2021. Effectiveness of gelatine and chitosan spray coating for extending shelf life of vacuum-packaged beef. International Journal of Food Science and Technology 56(8):4026−37

Rather JA, Makroo HA, Showkat QA, Majid D, Dar BN. 2022. Recovery of gelatin from poultry waste: characteristics of the gelatin and lotus starch-based coating material and its application in shelf-life enhancement of fresh cherry tomato. Food Packaging and Shelf Life 31:100775

Debeaufort F, Voilley A. 2009. Lipid-based edible films and coatings. In Edible Films and Coatings for Food Applications. eds. Huber K, Embuscado M. New York, NY: Springer New York. pp. 135−68 doi: 10.1007/978-0-387-92824-1_5

Rivero S, García MA, Pinotti A. 2010. Correlations between structural, barrier, thermal and mechanical properties of plasticized gelatin films. Innovative Food Science & Emerging Technologies 11(2):369−75

Leite LSF, Moreira FKV, Mattoso LHC, Bras J. 2021. Electrostatic interactions regulate the physical properties of gelatin-cellulose nanocrystals nanocomposite films intended for biodegradable packaging. Food Hydrocolloids 113:106424

Jridi M, Hajji S, Ben Ayed H, Lassoued I, Mbarek A, et al. 2014. Physical, structural, antioxidant and antimicrobial properties of gelatin–chitosan composite edible films. International Journal of Biological Macromolecules 67:373−79

Chang T, Du A, Bian L, Pan L, Zhang C. 2025. Effects of bacterial cellulose on mechanical and barrier properties of gelatin-based film and its application to strawberry preservation. Food Science and Biotechnology 34(12):2763−73

Smaoui S, Chaari M, Agriopoulou S, Varzakas T. 2025. Green active films/coatings based on seafood by-products (chitosan and gelatin): a powerful tool in food packaging. Biomass Conversion and Biorefinery 15(6):8331−50

Nowak N, Tkaczewska J, Cholewa-Wójcik A, Grzebieniarz W, Piasna-Słupecka E, et al. 2025. Multi-layer active biopolymer system as a perspective for improving the quality and scope of applying semi-rigid biodegradable packaging. Food and Bioprocess Technology 18(3):2682−96

Huang PH, Jian CH, Lin YW, Huang DW. 2025. Impact of Premna microphylla Turcz leaf water extracts on the properties of gelatin-carrageenan edible film and its application in cherry tomatoes storage. Food Chemistry: X 25:102186

Sun X, Liu Y, Li X, Chen L, Li M, et al. 2025. Curdlan inclusion modifies the rheological properties and the helix-coil transition behavior of gelatin and increases the flexibility of gelatin films. Food Chemistry 469:142567

Du J, Zhu Q, Guo J, Gu J, Guo J, et al. 2025. Preparation and characterization of edible films from gelatin and hydroxypropyl methyl cellulose/sodium carboxymethyl cellulose. Heliyon 11(1):e41613

Acosta S, Jiménez A, Cháfer M, González-Martínez C, Chiralt A. 2015. Physical properties and stability of starch-gelatin based films as affected by the addition of esters of fatty acids. Food Hydrocolloids 49:135−43

Benbettaïeb N, Kurek M, Bornaz S, Debeaufort F. 2014. Barrier, structural and mechanical properties of bovine gelatin-chitosan blend films related to biopolymer interactions. Journal of the Science of Food and Agriculture 94(12):2409−19

Rosmawati R, Sari SF, Asnani A, Embe W, Asjun A, et al. 2025. Influence of sorbitol and glycerol on physical and tensile properties of biodegradable–edible film from snakehead gelatin and κ-carrageenan. International Journal of Food Science 2025(1):7568352

Farahbakhsh Kargosha M, Motallebi A, Rahimi E, Shakerian A, Kazemeini H. 2025. Experimental study of the effect of sodium caseinate-gelatin probiotic film containing Lactobacillus paracasei, Bifidobacterium bifidum, and Lactobacillus plantarum on the survival of Staphylococcus aureus on rainbow trout fillet. International Journal of New Chemistry 12(2):206−24

Abedinia A, Alimohammadi F, Teymori F, Razgardani N, Saeidi Asl MR, et al. 2021. Characterization and cell viability of probiotic/prebiotics film based on duck feet gelatin: a novel poultry gelatin as a suitable matrix for probiotics. Foods 10(8):1761

Ashrafi A, Babapour H, Johari S, Alimohammadi F, Teymori F, et al. 2023. Application of poultry gelatin to enhance the physicochemical, mechanical, and rheological properties of fish gelatin as alternative mammalian gelatin films for food packaging. Foods 12(3):670

Poulain C, Brachais CH, Krystianiak A, Heintz O, Léonard ML, et al. 2025. Changes in the structure and barrier properties induced by corona atmospheric plasma process applied on wet gelatin layers for packaging film applications. Food Hydrocolloids 160:110858

Tahmouzi S, Sadeghizadeh-Yazdi J, Mohajeri FA, Fallahzadeh H, Mahmoudzadeh M, et al. 2025. The effect of the DBD cold plasma process on the physicochemical, mechanical, and microbial properties of the biodegradable packaging film (based on gelatin-sodium alginate) incorporated with AgNPs to extend the shelf life of trout fish in the refrigerator. Food and Bioprocess Technology 18(1):701−24

Davoudi S, Zandi M, Ganjloo A. 2024. Fabrication and characterization of novel biodegradable films based on tomato seed mucilage and gelatin plasticized with polyol mixtures. Food and Bioproducts Processing 148:187−97

Wen P, Wu J, Wu J, Wang H, Wu H. 2024. A colorimetric nanofiber film based on ethyl cellulose/gelatin/purple sweet potato anthocyanins for monitoring pork freshness. Foods 13(5):717

Kowalczyk D, Karaś M, Kazimierczak W, Skrzypek T, Wiater A, et al. 2025. A comparative study on the structural, physicochemical, release, and antioxidant properties of sodium casein and gelatin films containing sea buckthorn oil. Polymers 17(3):320

Cabeza de Vaca M, Ramírez R, Rocha-Pimienta J, Tejerina D, Delgado-Adámez J. 2025. Effects of gelatin/chitosan and chitosan active films with rice bran extract for the preservation of fresh pork meat. Gels 11:338

Kim S, Lim H, Park S, Kim DS, Kwak HW. 2025. Durable functional fish gelatin film using biomass-derived liquid hydrolysate as an eco-friendly crosslinker. Industrial Crops and Products 225:120564

Rostami P, Taheri A, Ghaffari M. 2025. Properties, antioxidant and antibacterial activity of southern meagre fish (Argyrosomus hololepidotus) skin gelatin reinforced with clove bud extract. Gels 11(1):21

Lima RP, Carrea DA, Garcia VADS, Tostes Filgueiras C, Matta Fakhouri F, et al. 2025. Development of gelatin-based renewable packaging with Melaleuca alternifolia essential oil for chicken breast preservation. Polymers 17(5):646

Kord Z, Taheri A, Ghaffari M, Sharifian S. 2024. Incorporation of Prosopis cineraria extract improved the mechanical, barrier and antioxidant properties but not the antibacterial activity of Tigertooth croaker fish scale gelatin film. Foods 13(4):538

Eslami A, Pirsa S, Mohtarami F, Bener M. 2024. Eco-friendly antibacterial/antioxidant photoluminescent film based on gelatin/phycocyanin liposome/zero-valent nano iron/gold-iridium pigment. Chemical Review and Letters 7(4):689−700

Jirukkakul N, Poolklang A. 2024. Utilization of Bauhinia sirindhorniae leaves extract to improve the antioxidant property of gelatin/sarcoplasmic protein film. Food and Applied Bioscience Journal 12(3):22−34

Ali Arfat Y, Benjakul S, Prodpran T, Sumpavapol P, Songtipya P. 2016. Physico-mechanical characterization and antimicrobial properties of fish protein isolate/fish skin gelatin-zinc oxide (ZnO) nanocomposite films. Food and Bioprocess Technology 9(1):101−12

Chen J, Zhang X, Lin H, Chen G, Zhang W, et al. 2025. A new strategy of fruit preservation: photoinduced hydrogen evolution technology combined with fish scale gelatin/chitosan-based bio-nanocomposite film. Chemical Engineering Journal 511:162184

Kechagias A, Leontiou AA, Oliinychenko YK, Stratakos AC, Zaharioudakis K, et al. 2025. Eugenol@Montmorillonite vs. Citral@Montmorillonite nanohybrids for gelatin-based extruded, edible, high oxygen barrier, active packaging films. Polymers 17(11):1518

Phan LTK, Huynh VTM, Bui NM, Le ATH. 2025. Effectiveness of cinnamon oil embedded chitosan–gelatin film in inhibiting Rhizopus oryzae, R. microsporus, and Syncephalastrum racemosum and controlling rice weevil infestation on paddy rice. Foods 14(5):807

Saada NS, Youssef AM, Helmi FM, Wahba WN, Abdel-Aziz MS. 2025. Sustainable gelatin bionanocomposite based on multifunctional TiO₂/Ag-NPs for parchment preservation. Biomass Conversion and Biorefinery 15(4):5171−82

Guler GS, Basturk ZS, Yazicioglu N, Sumnu G, Sahin S. 2025. Optimization and characterization of centrifugally spun gelatin-based fibers incorporated with bay laurel (Laurus nobilis L.) leaf essential oil. Food and Bioprocess Technology 18(2):1939−56

Mezhoudi M, Salem A, Abdelhedi O, Fakhfakh N, Mabrouk M, et al. 2022. Development of active edible coatings based on fish gelatin enriched with Moringa oleifera extract: application in fish (Mustelus mustelus) fillet preservation. Food Science and Nutrition 10(11):3979−92

Song NB, Lee JH, Al Mijan M, Song KB. 2014. Development of a chicken feather protein film containing clove oil and its application in smoked salmon packaging. LWT - Food Science and Technology 57(2):453−60

Sultan M, Ibrahim H, El-Masry HM, Hassan YR. 2024. Antimicrobial gelatin-based films with cinnamaldehyde and ZnO nanoparticles for sustainable food packaging. Scientific Reports 14(1):22499

Wu X, Liu Z, He S, Liu J, Shao W. 2023. Development of an edible food packaging gelatin/zein based nanofiber film for the shelf-life extension of strawberries. Food Chemistry 426:136652

Luo Q, Hossen MA, Zeng Y, Dai J, Li S, et al. 2022. Gelatin-based composite films and their application in food packaging: a review. Journal of Food Engineering 313:110762

Marcinkowska-Lesiak M, Wojtasik-Kalinowska I, Onopiuk A, Zalewska M, Poltorak A. 2021. Application of propolis extract in gelatin coatings as environmentally friendly method for extending the shelf life of pork loin. Coatings 11(8):979

Mahmood K, Kamilah H, Alias AK, Ariffin F, Mohammadi Nafchi A. 2022. Functionalization of electrospun fish gelatin mats with bioactive agents: comparative effect on morphology, thermo-mechanical, antioxidant, antimicrobial properties, and bread shelf stability. Food Science & Nutrition 10(2):584−96

Neira LM, Martucci JF, Stejskal N, Ruseckaite RA. 2019. Time-dependent evolution of properties of fish gelatin edible films enriched with carvacrol during storage. Food Hydrocolloids 94:304−10

Shyu YS, Chen GW, Chiang SC, Sung WC. 2019. Effect of chitosan and fish gelatin coatings on preventing the deterioration and preserving the quality of fresh-cut apples. Molecules 24(10):2008

Aitboulahsen M, Zantar S, Laglaoui A, Chairi H, Arakrak A, et al. 2018. Gelatin-based edible coating combined with Mentha pulegium essential oil as bioactive packaging for strawberries. Journal of Food Quality 2018(1):8408915

Ciurzyńska A, Janowicz M, Karwacka M, Nowacka M, Galus S. 2024. Development and characteristics of protein edible film derived from pork gelatin and beef broth. Polymers 16(7):1009

Ucak I, Khalily R, Carrillo C, Tomasevic I, Barba FJ. 2020. Potential of propolis extract as a natural antioxidant and antimicrobial in gelatin films applied to rainbow trout (Oncorhynchus mykiss) fillets. Foods 9(11):1584

Esma Nur E, Nilgün E. 2024. Muffin cake coating using antioxidant and antimicrobial edible film and investigating its functional, microbial and sensory characteristics during the storage time. Iranian Journal of Chemistry and Chemical Engineering 43(5):1994−2010

Abdollahzadeh E, Nematollahi A, Hosseini H. 2021. Composition of antimicrobial edible films and methods for assessing their antimicrobial activity: a review. Trends in Food Science & Technology 110:291−303

Pellá MCG, Silva OA, Pellá MG, Beneton AG, Caetano J, et al. 2020. Effect of gelatin and casein additions on starch edible biodegradable films for fruit surface coating. Food Chemistry 309:125764

Soradech S, Nunthanid J, Limmatvapirat S, Luangtana-anan M. 2017. Utilization of shellac and gelatin composite film for coating to extend the shelf life of banana. Food Control 73:1310−17

Cui H, Bai M, Rashed MMA, Lin L. 2018. The antibacterial activity of clove oil/chitosan nanoparticles embedded gelatin nanofibers against Escherichia coli O157: H7 biofilms on cucumber. International Journal of Food Microbiology 266:69−78

Hematizad I, Khanjari A, Basti AA, Karabagias IK, Noori N, et al. 2021. In vitro antibacterial activity of gelatin-nanochitosan films incorporated with Zataria multiflora Boiss essential oil and its influence on microbial, chemical, and sensorial properties of chicken breast meat during refrigerated storage. Food Packaging and Shelf Life 30:100751

Russo Spena S, Pasquino R, Grizzuti N. 2024. K-Carrageenan/locust bean gum gels for food applications—a critical study on potential alternatives to animal-based gelatin. Foods 13(16):2575

Bermúdez-Oria A, Rodríguez-Gutiérrez G, Rubio-Senent F, Fernández-Prior Á, Fernández-Bolaños J. 2019. Effect of edible pectin-fish gelatin films containing the olive antioxidants hydroxytyrosol and 3,4-dihydroxyphenylglycol on beef meat during refrigerated storage. Meat Science 148:213−18

Xiong Y, Kamboj M, Ajlouni S, Fang Z. 2021. Incorporation of salmon bone gelatine with chitosan, gallic acid and clove oil as edible coating for the cold storage of fresh salmon fillet. Food Control 125:107994

Yu D, Regenstein JM, Xia W. 2019. Bio-based edible coatings for the preservation of fishery products: a review. Critical Reviews in Food Science and Nutrition 59(15):2481−93

Wang F, Zhang H, Jin W, Li L. 2018. Effects of tartary buckwheat polysaccharide combined with nisin edible coating on the storage quality of tilapia (Oreochromis niloticus) fillets. Journal of the Science of Food and Agriculture 98(8):2880−88

Lin MG, Lasekan O, Saari N, Khairunniza-Bejo S. 2018. Effect of chitosan and carrageenan-based edible coatings on post-harvested longan (Dimocarpus longan) fruits. CyTA-Journal of Food 16(1):490−97

Shinga MH, Silue Y, Fawole OA. 2025. Recent advancements and trends in postharvest application of edible coatings on bananas: a comprehensive review. Plants 14(4):581

Silva OA, Pellá MCG, Friedrich JCC, Pellá MG, Beneton AG, et al. 2021. Effects of a native cassava starch, chitosan, and gelatin-based edible coating over guavas (Psidium guajava L.). ACS Food Science & Technology 1(7):1247−53

Sooch BS, Mann MK. 2021. Nano reinforced biodegradable gelatin based active food packaging film for the enhancement of shelf life of tomatoes (Solanum lycopersicum L.). Food Control 130:108322

Archundia Velarde ED, Mariezcurrena Berasain MD, Morales Luckie RA, Medina Medina DI, Lackner M, et al. 2025. Development and characterization of active gelatin-chitosan packaging incorporated with guava leaf extract for extending meat shelf life. Journal of Agriculture and Food Research 19:101555

Ponnusamy A, Khan A, Prodpran T, Kim JT, Benjakul S, et al. 2025. Active packaging film based on chitosan/gelatin blend incorporated with mango peel carbon dots: properties and shelf-life extension of minced pork. International Journal of Biological Macromolecules 288:138692

Gvozdenko AA, Siddiqui SA, Blinov AV, Golik AB, Nagdalian AA, et al. 2022. Synthesis of CuO nanoparticles stabilized with gelatin for potential use in food packaging applications. Scientific Reports 12(1):12843

Hossen MA, Shimul IM, Sameen DE, Rasheed Z, Tanga W, et al. 2024. Chitosan/gelatin coating loaded with ginger essential oil/β-cyclodextrin inclusion complex on quality and shelf life of blueberries. International Journal of Biological Macromolecules 279:135026

Cheng E, Zhang M, Xiang L, Xiang A, Zhou H. 2024. Edible antibacterial gelatin/zein fiber films loaded with cinnamaldehyde for extending the shelf life of strawberries by electrospinning approach. Food Bioscience 60:104329

Tymczewska A, Szydłowska-Czerniak A, Nowaczyk J. 2021. Bioactive packaging based on gelatin incorporated with rapeseed meal for prolonging shelf life of rapeseed. Food Packaging and Shelf Life 29:100728

Ghalehjooghi HD, Tajik H, Shahbazi Y. 2023. Development and characterization of active packaging nanofiber mats based on gelatin-sodium alginate containing probiotic microorganisms to improve the shelf-life and safety quality of silver carp fillets. International Journal of Food Microbiology 384:109984

Lou L, Chen H. 2023. Functional modification of gelatin-based biodegradable composite films: a review. Food Additives & Contaminants Part A, Chemistry, Analysis, Control, Exposure & Risk Assessment 40(7):928−49