10.1016/j.actbio.2022.04.041.

                   [22] Miao  L,  Lu  X,  Wei  Y,  et  al.  Near-infrared  light-responsive  nanocomposite  hydrogels

                       loaded with epidermal growth factor for diabetic wound healing. Mater Today Bio. 2025;
                       31: 101578. doi: 10.1016/j.mtbio.2025.101578.


                   [23] Zhang  L,  Nasar  NKA,  Huang  X,  et  al.  Light-Assisted  3D-Printed  Hydrogels  for
                       Antibacterial Applications. Small Sci. 2024; 4(8): 2400097. doi: 10.1002/smsc.202400097

                   [24] Li J, Wang Y, Fan L, et al. Liquid metal hybrid antibacterial hydrogel scaffolds from 3D

                       printing  for  wound  healing.  Chem  Eng  J.  2024;  496:  153805.  doi:

                       10.1016/j.cej.2024.153805.

                   [25] Ma R, Xu L, Li Z, et al. NIR-responsive tissue-adaptive hydrogel for accelerating healing

                       of  seawater-immersed  wounds.  Mater  Today  Bio.  2025;  32:  101915.  doi:

                       10.1016/j.mtbio.2025.101915.

                   [26] Ribeiro  MM,  Simões  M,  Vitorino  C,  et  al.  Physical  crosslinking  of  hydrogels:  The

                       potential of dynamic and reversible bonds in burn care. Coordin Chem Rev. 2025; 542:

                       216868. doi: 10.1016/j.ccr.2025.216868.

                   [27] Yang J, Chen Y, Zhao L, et al. Constructions and properties of physically cross-linked
                       hydrogels  based  on  natural  polymers.  Polym  Rev.  2022;  63(3):  574-612.  doi:


                       10.1080/15583724.2022.2137525.
                   [28] Drzewiecki KE, Parmar AS, Gaudet ID, et al. Methacrylation induces rapid, temperature-

                       dependent, reversible self-assembly of type-I collagen. Langmuir. 2014; 30, 11204-11211.

                       doi: 10.1021/la502418s.

                   [29] Rombouts  HW,  Kort  DWD,  Pham  TTH,  et  al.  Reversible  temperature-switching  of

                       hydrogel  stiffness  of  coassembled,  silk-collagen-like  hydrogels.  Biomacromolecules.

                       2015; 16 (8): 2506-2513. doi: 10.1021/acs.biomac.5b00766.

                   [30] Sun-Hee  C,  Ahreum  K,  Woojung  S,  et  al.  Photothermo-modulated  drug  delivery  and

                       magnetic relaxation based on collagen/poly(γ-glutamic acid) hydrogel. Int J Nanomed.

                       2017; 12: 2607-2620. doi: 10.2147/ijn.s133078.

                   [31] Naik  K,  Singh  P,  Yadav  M,  et  al.  3D  printable,  injectable  amyloid-based  composite

                       hydrogel of bovine serum albumin and aloe vera for rapid diabetic wound healing. J Mater

                       Chem B. 2023; 11(34): 8142-8158. doi: 10.1039/D3TB01151H.
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