Stretchable Functional Nanocomposites for Soft Implantable Bioelectronics DOI
Hye Jin Kim, Heewon Choi, Dae‐Hyeong Kim

et al.

Nano Letters, Journal Year: 2024, Volume and Issue: 24(28), P. 8453 - 8464

Published: May 21, 2024

Material advances in soft bioelectronics, particularly those based on stretchable nanocomposites─functional nanomaterials embedded viscoelastic polymers with irreversible or reversible bonds─have driven significant progress translational medical device research. The unique mechanical properties inherent the nanocomposites enable stiffness matching between tissue and device, as well its spontaneous adaptation to

Language: Английский

Mechanical Regulation of Polymer Gels DOI
Chenggong Xu,

Yi Chen,

Siyang Zhao

et al.

Chemical Reviews, Journal Year: 2024, Volume and Issue: 124(18), P. 10435 - 10508

Published: Sept. 16, 2024

The mechanical properties of polymer gels devote to emerging devices and machines in fields such as biomedical engineering, flexible bioelectronics, biomimetic actuators, energy harvesters. Coupling network architectures interactions has been explored regulate supportive characteristics gels; however, systematic reviews correlating mechanics interaction forces at the molecular structural levels remain absent field. This review highlights engineering gel a comprehensive mechanistic understanding regulation. Molecular alters architecture manipulates functional groups/moieties level, introducing various permanent or reversible dynamic bonds dissipative energy. usually uses monomers, cross-linkers, chains, other additives. Structural utilizes casting methods, solvent phase regulation, mechanochemistry, macromolecule chemical reactions, biomanufacturing technology construct tailor topological structures, heterogeneous modulus compositions. We envision that perfect combination may provide fresh view extend exciting new perspectives this burgeoning also summarizes recent representative applications with excellent properties. Conclusions are provided from five aspects concise summary, mechanism, biofabrication upgraded applications, synergistic methodology.

Language: Английский

Citations

11
Soft electronics for advanced infant monitoring DOI
Ming Yuan,

Yunxiang Long,

Tao Liu

et al.

Materials Today, Journal Year: 2024, Volume and Issue: 75, P. 166 - 186

Published: April 7, 2024

Language: Английский

Citations

10
Conductive hydrogels put electrons in charge DOI
Dace Gao, Simone Fabiano

Science, Journal Year: 2024, Volume and Issue: 384(6695), P. 509 - 510

Published: May 2, 2024

Semiconductor hydrogels enable active bioelectronics.

Language: Английский

Citations

10
Sweat-adaptive adhesive hydrogel electronics enabled by dynamic hydrogen bond networks DOI
Siheng Wang, Zhuomin Wang, Lei Zhang

et al.

Chemical Engineering Journal, Journal Year: 2024, Volume and Issue: 492, P. 152290 - 152290

Published: May 16, 2024

Language: Английский

Citations

10
Stretchable Functional Nanocomposites for Soft Implantable Bioelectronics DOI
Hye Jin Kim, Heewon Choi, Dae‐Hyeong Kim

et al.

Nano Letters, Journal Year: 2024, Volume and Issue: 24(28), P. 8453 - 8464

Published: May 21, 2024

Material advances in soft bioelectronics, particularly those based on stretchable nanocomposites─functional nanomaterials embedded viscoelastic polymers with irreversible or reversible bonds─have driven significant progress translational medical device research. The unique mechanical properties inherent the nanocomposites enable stiffness matching between tissue and device, as well its spontaneous adaptation to

Language: Английский

Citations

10