A Facile Approach for Anisotropic Hydrogel with Light‐Regulated Stiffness and Its Application to Achieve Mechanical Toughening

Gao, Yang; Wang, Peiyao; Zhao, Fei; Liu, Xiao; Wu, Jingping; Hu, Jian

doi:10.1002/marc.202200077

Cited by 4 publications

(2 citation statements)

References 53 publications

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“…4. There are also studies using barium ions, 76 copper ions, 77 iron ions, 78 and zinc ions 32 based on the same theory. 79 Like high-valence metal cations, organic compounds with positively charged structures can also act as physical crosslinking agents for sodium alginate hydrogels, such as chitosan and histidine.…”

Section: Gelation (Crosslinking) Methodsmentioning

confidence: 99%

A review on the synthesis and development of alginate hydrogels for wound therapy

Cao

Cong

et al. 2023

J. Mater. Chem. B

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Section: Gelation (Crosslinking) Methodsmentioning

confidence: 99%

A review on the synthesis and development of alginate hydrogels for wound therapy

Cao

Cong

et al. 2023

J. Mater. Chem. B

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“…In previous works, hydrogels with domains that have different straininduced deformation behaviors have mainly been prepared by introducing different cross-linking densities. 55,56 The current study offers another strategy to incorporate multiple domains with different mechanical properties into the same bulk hydro-gels by simultaneously exploiting the rigidity and surface chemical properties of the rod-like nanofillers.…”

Section: Papermentioning

confidence: 99%

Multicomponent chiral hydrogel fibers with block configurations based on the chiral liquid crystals of cellulose nanocrystals and M13 bacteriophages

et al. 2022

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Plant‐based Biomass/Polyvinyl Alcohol Gels for Flexible Sensors

Cheng

et al. 2023

Chemistry An Asian Journal

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Flexible sensors show great application potential in wearable electronics, human‐computer interaction, medical health, bionic electronic skin and other fields. Compared with rigid sensors, hydrogel‐based devices are more flexible and biocompatible and can easily fit the skin or be implanted into the body, making them more advantageous in the field of flexible electronics. In all designs, polyvinyl alcohol (PVA) series hydrogels exhibit high mechanical strength, excellent sensitivity and fatigue resistance, which make them promising candidates for flexible electronic sensing devices. This paper has reviewed the latest progress of PVA/plant‐based biomass hydrogels in the construction of flexible sensor applications. We first briefly introduced representative plant biomass materials, including sodium alginate, phytic acid, starch, cellulose and lignin, and summarized their unique physical and chemical properties. After that, the design principles and performance indicators of hydrogel sensors are highlighted, and representative examples of PVA/plant‐based biomass hydrogel applications in wearable electronics are illustrated. Finally, the future research is briefly prospected. We hope it can promote the research of novel green flexible sensors based on PVA/biomass hydrogel.

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A Facile Approach for Anisotropic Hydrogel with Light‐Regulated Stiffness and Its Application to Achieve Mechanical Toughening

Cited by 4 publications

References 53 publications

A review on the synthesis and development of alginate hydrogels for wound therapy

A review on the synthesis and development of alginate hydrogels for wound therapy

Multicomponent chiral hydrogel fibers with block configurations based on the chiral liquid crystals of cellulose nanocrystals and M13 bacteriophages

Plant‐based Biomass/Polyvinyl Alcohol Gels for Flexible Sensors

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