Amorim, P.A.;                     Agten, H.;                     Vermeulen, M.;                     Van Vlierberghe, S.;                     Geris, L.;                     Bloemen, V.    
        Novel GelMA/GelMA-AEMA Hydrogel Blend with Enhanced Printability as a Carrier for iPSC-Derived Chondrocytes In Vitro. Gels 2025, 11, 698.
    https://doi.org/10.3390/gels11090698
    AMA Style
    
                                Amorim PA,                                 Agten H,                                 Vermeulen M,                                 Van Vlierberghe S,                                 Geris L,                                 Bloemen V.        
                Novel GelMA/GelMA-AEMA Hydrogel Blend with Enhanced Printability as a Carrier for iPSC-Derived Chondrocytes In Vitro. Gels. 2025; 11(9):698.
        https://doi.org/10.3390/gels11090698
    
    Chicago/Turabian Style
    
                                Amorim, Paulo A.,                                 Hannah Agten,                                 Margaux Vermeulen,                                 Sandra Van Vlierberghe,                                 Liesbet Geris,                                 and Veerle Bloemen.        
                2025. "Novel GelMA/GelMA-AEMA Hydrogel Blend with Enhanced Printability as a Carrier for iPSC-Derived Chondrocytes In Vitro" Gels 11, no. 9: 698.
        https://doi.org/10.3390/gels11090698
    
    APA Style
    
                                Amorim, P. A.,                                 Agten, H.,                                 Vermeulen, M.,                                 Van Vlierberghe, S.,                                 Geris, L.,                                 & Bloemen, V.        
        
        (2025). Novel GelMA/GelMA-AEMA Hydrogel Blend with Enhanced Printability as a Carrier for iPSC-Derived Chondrocytes In Vitro. Gels, 11(9), 698.
        https://doi.org/10.3390/gels11090698