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　　2. De Rutte, J.M., et al., Scalable High‐Throughput Production of Modular Microgels for In Situ Assembly of Microporous Tissue Scaffolds, Advanced Functional Materials, 2019.

　　3. Day, J.R., et al., The impact of functional groups of poly(ethylene glycol) macromers on the physical properties of photo-polymerized hydrogels and the local inflammatory response in the host, Acta Biomaterialia, 2018, 67, P. 42-52.

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　　5. Aguilar, V.M., et al., Microcontact-Printed Hydrogel Microwell Arrays for Clonal Muscle Stem Cell Cultures, InSkeletal Muscle Development, 2017, p. 75-92.

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　　11. Kim, J., et al., Synthetic hydrogel supports the function and regeneration of artificial ovarian tissue in mice, Regenerative Medicine, 2016, 1:16010.

　　12. Rosales, A.M., et al., Photoresponsive Elastic Properties of Azobenzene-Containing Poly(ethylene-glycol)-Based Hydrogels, Biomacromolecules, 2015.

　　13. Allazetta, S., et al., Microfluidic Synthesis of Cell-Type-Specific Artificial Extracellular Matrix Hydrogel, Biomacromolecules, 2013, 14(4), p: 1122-1131.

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15、Below, C.R., et al., A microenvironment-inspired synthetic three-dimensional model for pancreatic ductal adenocarcinoma organoids. Nature materials, 2022, 21(1).

16.Babu, S., et al., How do the Local Physical, Biochemical, and Mechanical Properties of an Injectable Synthetic Anisotropic Hydrogel Affect Oriented Nerve Growth?. Advanced Functional Materials. 2022.

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18.Gnecco, J.S., et al., Organoid co-culture model of the human endometrium in a fully synthetic extracellular matrix enables the study of epithelial-stromal crosstalk, Med, 4(8), 2023.