MOHAN T, BRAČIČ M, BRAČIČ D, LACKNER F, NAGARAJ C, ŠTIGLIC AD, KARGL R und KLEINSCHEK KS, 2025. Protocol for the fabrication of self-standing (nano)cellulose-based 3 D scaffolds for tissue engineering. STAR protocols. 21 März 2025. Vol. 6, no. 1, p. 103583-103583. DOI 10.1016/j.xpro.2024.103583.
Elsevier - Harvard (with titles)Mohan T, Bračič M, Bračič D, Lackner F, Nagaraj C, Štiglic AD, Kargl R, Kleinschek KS, 2025. Protocol for the fabrication of self-standing (nano)cellulose-based 3 D scaffolds for tissue engineering. STAR protocols 6, 103583-103583. https://doi.org/10.1016/j.xpro.2024.103583
American Psychological Association 7th editionMohan T, Bračič M, Bračič D, Lackner F, Nagaraj C, Štiglic AD, Kargl R, & Kleinschek KS. (2025). Protocol for the fabrication of self-standing (nano)cellulose-based 3 D scaffolds for tissue engineering. STAR Protocols, 6(1), 103583-103583. https://doi.org/10.1016/j.xpro.2024.103583
Springer - Basic (author-date)Mohan T, Bračič M, Bračič D, Lackner F, Nagaraj C, Štiglic AD, Kargl R, Kleinschek KS (2025) Protocol for the fabrication of self-standing (nano)cellulose-based 3 D scaffolds for tissue engineering.. STAR protocols 6:103583-103583. https://doi.org/10.1016/j.xpro.2024.103583
Juristische Zitierweise (Stüber) (Deutsch)Mohan T/ Bračič M/ Bračič D/ Lackner F/ Nagaraj C/ Štiglic AD/ Kargl R/ Kleinschek KS, Protocol for the fabrication of self-standing (nano)cellulose-based 3 D scaffolds for tissue engineering., STAR protocols 2025, 103583-103583.