Photodegradable Non‐Drying Hydrogel Substrates for Liquid Metal Based Sustainable Soft‐Matter Electronics

Fonseca, R.; Hajalilou, Abdollah; Freitas, Marta; Kuster, Aline; Parvini, Elahe; Serra, Arménio C.; Coelho, Jorge F. J.; Fonseca, A. C.; Tavakoli, Mahmoud

doi:10.1002/admt.202301007

Cited by 3 publications

(1 citation statement)

References 50 publications

(76 reference statements)

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“…Liu et al went on to compare the initial and maximum strain resistance of their sensor to the resistance change in other proposed rigid materials as illustrated in Figure 4 C,D. A mixture of an ionic-covalent alginate/polyethylene glycol/polyacrylamide crosslinked hydrogel was assembled in [ 153 ], enabling digital printing and formidable adhesion. Ultimately, their sensor system proves to be superior to many of the conventional materials.…”

Section: Considerations When Combining Substrates and Conductor Mater...mentioning

confidence: 99%

Stretchable Sensor Materials Applicable to Radiofrequency Coil Design in Magnetic Resonance Imaging: A Review

Vazquez,

Motovilova,

Winkler

2024

Sensors

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Wearable sensors are rapidly gaining influence in the diagnostics, monitoring, and treatment of disease, thereby improving patient outcomes. In this review, we aim to explore how these advances can be applied to magnetic resonance imaging (MRI). We begin by (i) introducing limitations in current flexible/stretchable RF coils and then move to the broader field of flexible sensor technology to identify translatable technologies. To this goal, we discuss (ii) emerging materials currently used for sensor substrates, (iii) stretchable conductive materials, (iv) pairing and matching of conductors with substrates, and (v) implementation of lumped elements such as capacitors. Applicable (vi) fabrication methods are presented, and the review concludes with a brief commentary on (vii) the implementation of the discussed sensor technologies in MRI coil applications. The main takeaway of our research is that a large body of work has led to exciting new sensor innovations allowing for stretchable wearables, but further exploration of materials and manufacturing techniques remains necessary, especially when applied to MRI diagnostics.

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Section: Considerations When Combining Substrates and Conductor Mater...mentioning

confidence: 99%

Stretchable Sensor Materials Applicable to Radiofrequency Coil Design in Magnetic Resonance Imaging: A Review

Vazquez,

Motovilova,

Winkler

2024

Sensors

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Accessible Soft Electronics with Silver‐Gelatin Conductive Hydrogel Composite

Chin,

Vinciguerra,

Patel

et al. 2024

Adv Materials Technologies

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Electrically conductive hydrogels are a promising class of materials for soft electronics and robotics that mimic the mechanics of natural biological tissue. However, these materials are typically derived from petrochemical sources and their production typically involves hazardous solvents and monomers that limit accessibility and environmental compatibility. This study introduces a biomaterial hydrogel composite in which a percolating network of silver microflakes is suspended in a natural, gelatin‐based matrix. The composite is primarily composed of inexpensive, food‐safe ingredients and fabrication is achieved using accessible consumer‐grade equipment. The resulting material system is mechanically soft, stretchable up to 470% strain, and highly conductive up to 3.1 × 103 S cm−1, with properties that can be tailored based on material composition and processing conditions. In addition to experimental characterization of its material properties, this conductive gelatin composite is shown to be applicable for a variety of uses cases in soft matter circuitry and bioelectronics.

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Photodegradable polyacrylamide tanglemers enable spatiotemporal control over chain lengthening in high-strength and low-hysteresis hydrogels

Lee,

Kirkpatrick,

Dhand

et al. 2025

J. Mater. Chem. B

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Photodegradable Non‐Drying Hydrogel Substrates for Liquid Metal Based Sustainable Soft‐Matter Electronics

Cited by 3 publications

References 50 publications

Stretchable Sensor Materials Applicable to Radiofrequency Coil Design in Magnetic Resonance Imaging: A Review

Stretchable Sensor Materials Applicable to Radiofrequency Coil Design in Magnetic Resonance Imaging: A Review

Accessible Soft Electronics with Silver‐Gelatin Conductive Hydrogel Composite

Photodegradable polyacrylamide tanglemers enable spatiotemporal control over chain lengthening in high-strength and low-hysteresis hydrogels

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