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Page 22 of 23 Du et al. Soft Sci 2024;4:35 https://dx.doi.org/10.20517/ss.2024.31

73. Li J, Liu Y, Yuan L, et al. A tissue-like neurotransmitter sensor for the brain and gut. Nature 2022;606:94-101. DOI
74. Lu Y, Yang G, Wang S, et al. Stretchable graphene–hydrogel interfaces for wearable and implantable bioelectronics. Nat Electron
2024;7:51-65. DOI
75. Zhu Y, Haghniaz R, Hartel MC, et al. Recent advances in bioinspired hydrogels: materials, devices, and biosignal computing. ACS
Biomater Sci Eng 2023;9:2048-69. DOI
76. Jiang L, Lu X. Functional hydrogel-based supercapacitors for wearable bioelectronic devices. Mater Chem Front 2021;5:7479-98.
DOI
77. Wang W, Yao D, Wang H, et al. A Breathable, Stretchable, and Self-Calibrated Multimodal Electronic Skin Based on Hydrogel
Microstructures for Wireless Wearables. Adv Funct Materials 2024;34:2316339. DOI
78. Luo L, Wu Z, Ding Q, et al. In situ structural densification of hydrogel network and its interface with electrodes for high-performance
multimodal artificial skin. ACS Nano 2024;18:15754-68. DOI
79. Lei Z, Wu P. A supramolecular biomimetic skin combining a wide spectrum of mechanical properties and multiple sensory
capabilities. Nat Commun 2018;9:1134. DOI
80. Tabasum H, Gill N, Mishra R, Lone S. Wearable microfluidic-based e-skin sweat sensors. RSC Adv 2022;12:8691-707. DOI
PubMed PMC
81. Lee HK, Yang YJ, Koirala GR, Oh S, Kim TI. From lab to wearables: innovations in multifunctional hydrogel chemistry for next-
generation bioelectronic devices. Biomaterials 2024;310:122632. DOI PubMed
82. Huang W, Ying R, Wang W, et al. A macroporous hydrogel dressing with enhanced antibacterial and anti-inflammatory capabilities
for accelerated wound healing. Adv Funct Mater 2020;30:2000644. DOI
83. Liang Y, He J, Guo B. Functional hydrogels as wound dressing to enhance wound healing. ACS Nano 2021;15:12687-722. DOI
84. Zhao Y, Li Z, Li Q, et al. Transparent conductive supramolecular hydrogels with stimuli-responsive properties for on-demand
dissolvable diabetic foot wound dressings. Macromol Rapid Commun 2020;41:e2000441. DOI PubMed
85. Wang K, Zhang J, Li H, et al. Smart hydrogel sensors for health monitoring and early warning. Adv Sensor Res 2024;3:2400003.
DOI
86. McLister A, McHugh J, Cundell J, Davis J. New developments in smart bandage technologies for wound diagnostics. Adv Mater
2016;28:5732-7. DOI PubMed
87. Ma J, Zhong J, Sun F, et al. Hydrogel sensors for biomedical electronics. Chem Eng J 2024;481:148317. DOI
88. Ouyang J, Zhang Z, Deng B, et al. Oral drug delivery platforms for biomedical applications. Mater Today 2023;62:296-326. DOI
89. Han Z, Wang P, Mao G, et al. Dual pH-responsive hydrogel actuator for lipophilic drug delivery. ACS Appl Mater Interfaces
2020;12:12010-7. DOI
90. Issarachot O, Bunlung S, Kaewkroek K, Wiwattanapatapee R. Superporous hydrogels based on blends of chitosan and polyvinyl
alcohol as a carrier for enhanced gastric delivery of resveratrol. Saudi Pharm J 2023;31:335-47. DOI PubMed PMC
91. Ahsan A, Farooq MA, Parveen A. Thermosensitive chitosan-based injectable hydrogel as an efficient anticancer drug carrier. ACS
Omega 2020;5:20450-60. DOI
92. Li Y, Yang HY, Lee DS. Advances in biodegradable and injectable hydrogels for biomedical applications. J Control Release
2021;330:151-60. DOI
93. Blacklow SO, Li J, Freedman BR, Zeidi M, Chen C, Mooney DJ. Bioinspired mechanically active adhesive dressings to accelerate
wound closure. Sci 2019;5:eaaw3963. DOI
94. Yang N, Zhu M, Xu G, Liu N, Yu C. A near-infrared light-responsive multifunctional nanocomposite hydrogel for efficient and
synergistic antibacterial wound therapy and healing promotion. J Mater Chem B 2020;8:3908-17. DOI
95. Wang T, Zheng Y, Shi Y, Zhao L. pH-responsive calcium alginate hydrogel laden with protamine nanoparticles and hyaluronan
oligosaccharide promotes diabetic wound healing by enhancing angiogenesis and antibacterial activity. Drug Deliv Transl Re
2019;9:227-39. DOI
96. Liang Y, Li M, Yang Y, Qiao L, Xu H, Guo B. pH/glucose dual responsive metformin release hydrogel dressings with adhesion and
self-healing via dual-dynamic bonding for athletic diabetic foot wound healing. ACS Nano 2022;16:3194-207. DOI
97. Bellotti E, Fedorchak MV, Velankar S, Little SR. Tuning of thermoresponsive pNIPAAm hydrogels for the topical retention of
controlled release ocular therapeutics. J Mater Chem B 2019;7:1276-83. DOI
98. Iohara D, Okubo M, Anraku M, et al. Hydrophobically modified polymer/α-cyclodextrin thermoresponsive hydrogels for use in
ocular drug delivery. Mol Pharm 2017;14:2740-8. DOI
99. Xu X, Gu Z, Chen X, et al. An injectable and thermosensitive hydrogel: promoting periodontal regeneration by controlled-release of
aspirin and erythropoietin. Acta Biomater 2019;86:235-46. DOI PubMed
100. Jiang H, Fu X, Zhao G, et al. Intradermal injection of a thermoresponsive polymeric dexamethasone prodrug (ProGel-Dex)
ameliorate dermatitis in an imiquimod (IMQ)-induced psoriasis-like mouse model. Mol Pharm 2024;21:4995-5004. DOI
101. Noddeland HK, Lind M, Jensen LB, et al. Design and characterization of matrix metalloproteinase-responsive hydrogels for the
treatment of inflammatory skin diseases. Acta Biomater 2023;157:149-61. DOI
102. Hu L, Zhang P, Wang X, Cheng X, Qin J, Tang R. pH-sensitive carboxymethyl chitosan hydrogels via acid-labile ortho ester linkage
for potential biomedical applications. Carbohydr Polym 2017;178:166-79. DOI
103. Gangrade A, Gawali B, Jadi PK, Naidu VGM, Mandal BB. Photo-electro active nanocomposite silk hydrogel for spatiotemporal
controlled release of chemotherapeutics: an in vivo approach toward suppressing solid tumor growth. ACS Appl Mater Interfaces

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