Monolithic 3D printing of embeddable and highly stretchable strain sensors using conductive ionogels

Keyphrases

• 3D Printing 100%
• Tissue Model 100%
• Monolithic 3-D (M3-D) 100%
• High Stretchability 100%
• Embeddable 100%
• Ionogel 100%
• Stretchable Strain Sensors 100%
• Patient-specific 50%
• Rheology 50%
• Ionic Liquid 50%
• Shear Thinning 50%
• Polydimethylsiloxane 50%
• Piezoresistive 50%
• Low Hysteresis 50%
• Strain Sensor 50%
• Customizable 25%
• Medical Training 25%
• Elastomer 25%
• Solid Phase 25%
• Patient Understanding 25%
• Training Procedure 25%
• Viscera 25%
• Tunability 25%
• Graphene Composites 25%
• Hysteresis 25%
• Stencil 25%
• Preoperative Patients 25%
• Strain-dependent 25%
• Seamless Integration 25%
• Pre-procedure 25%
• Sensor Performance 25%
• Embedded Sensors 25%
• Printed Silver 25%
• Screen-printed Electrode 25%
• Gauge Factor 25%
• High Dynamic 25%
• Stretchable 25%
• Reduced Graphene Oxide 25%
• Conductive Gel 25%
• Baseline Drift 25%
• Dynamic Strain 25%
• Surgical Rehearsal 25%
• Dimensional Instability 25%
• Piezoresistive Strain Sensor 25%
• Degree of Hysteresis 25%
• Medical Training Simulator 25%
• Monolithic Fabrication 25%
• Integrated Manufacturing 25%
• Strain Range 25%
• Piezoresistive Composite 25%
• Thermoset Elastomers 25%
• Failure Strain 25%
• Sensor Geometry 25%
• Customized Sensors 25%
• 3D-printable 25%
• Patient-specific Rehearsal 25%

Engineering

• Using Sensor 100%
• Conductive 100%
• Patient Specific 100%
• Embedded Sensor 100%
• Three Dimensional Printing 100%
• Rheology 66%
• Polydimethylsiloxane 66%
• Shear Thinning 66%
• Elastomer 66%
• Proof-of-Concept 33%
• Graphene 33%
• Applied Strain 33%
• Failure Strain 33%
• Dependent Strain 33%
• Gauge Factor 33%
• Reduced Graphene Oxide 33%
• Response Value 33%

Material Science

• Rheology 100%
• Elastomer 100%
• Three Dimensional Printing 100%
• Composite Material 100%
• Ionic Liquid 100%
• Graphene 50%
• Silver 50%
• Reduced Graphene Oxide 50%
• Thermoset Plastics 50%