2023
DOI: 10.1021/acsami.3c00072
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Stretchable Ink Printed Graphene Device with Weft-Knitted Fabric Substrate Based on Thermal-Acoustic Effect

Abstract: Thermal-acoustic devices have great potential as flexible ultrathin sound sources. However, stretchable sound sources based on a thermal-acoustic mechanism remain elusive, as realizing stable resistance in a reasonable range is challenging. In this study, a stretchable thermal-acoustic device based on graphene ink is fabricated on a weft-knitted fabric. After optimization of the graphene ink concentration, the device resistance changes by 8.94% during 4000 cycles of operation in the unstretchable state. After … Show more

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Cited by 3 publications
(2 citation statements)
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“…c) Direct ink writing of graphene inks on a stretchable textile resulting in a conformal coating of textile fibers with multiple graphene layers. Reprinted with permission Copyright 2023, American Chemical Society. d) Extrusion printed hierarchical structure with a unit element composed of graphene sheets with CNT as a rebar-like reinforcement.…”
Section: Stretchable and Conductive Materialsmentioning
confidence: 99%
See 1 more Smart Citation
“…c) Direct ink writing of graphene inks on a stretchable textile resulting in a conformal coating of textile fibers with multiple graphene layers. Reprinted with permission Copyright 2023, American Chemical Society. d) Extrusion printed hierarchical structure with a unit element composed of graphene sheets with CNT as a rebar-like reinforcement.…”
Section: Stretchable and Conductive Materialsmentioning
confidence: 99%
“…By adjusting print parameters such as number of passes and ink concentration, graphene can conformally coat textile threads (Figure c). However, despite the use of a textile substrate, cracks start appearing in the films after multiple cycles of 25% strain . Another approach to facilitate stretchability in graphene is to combine hierarchical structures from the microscale to macroscale.…”
Section: Stretchable and Conductive Materialsmentioning
confidence: 99%