Fig. 4.16 Multiplexed electrical recording from nanoES innervated
- 3.2.2 3D Macroporous Chemical Sensors Network...........
- 3.2.3 3D Macroporous Strain Sensors Network.............
- 3.3 Results and Discussion................................
- 3.3.1 Imaging Nanowire Device in 3D Structure............
- 3.3.2 Mapping Chemical Diffusion in Gel.................
- 3.3.3 Mapping Strain Distribution in Elastomer.............
- 3.4 Conclusion.........................................
- Bibliography
- Innervated Synthetic Tissue...............................
- 4.1 Introduction........................................
- 4.2 Experimental
- 4.2.1 NanoES/Tissue Scaffold..........................
- 4.2.2 Scaffold Mechanical Properties.....................
- 4.2.3 Cell Culture
- 4.2.4 Staining
- 4.2.5 Characterization................................
- 4.2.6 Electrical Measurement..........................
- 4.3 Results and Discussion................................
- 4.3.1 NanoES Characterization.........................
- 4.3.2 Mechanics-Driven 3D Self-organization
- 4.3.3 NanoES/Tissue Scaffold Hybrids...................
- 4.3.4 Characterization of NanoES/Tissue Interface...........
- Stimulations 4.3.5 Monitoring of Cell Activity Change to External
- 4.4 Conclusion.........................................
- Bibliography
- 5 Syringe Injectable Electronics..............................
- 5.1 Introduction........................................
- 5.2 Experimental
- 5.2.1 Freestanding Mesh Electronics Fabrication............
- 5.2.2 Mesh Structure Design...........................
- 5.2.3 Injection of Mesh Electronics......................
- 5.2.4 Injection of Mesh Electronics into Behaving Animals....
- 5.2.5 Mechanical Analysis............................
- 5.2.6 Electrical Measurement..........................
- 5.2.7 Characterization................................
- 5.2.8 Chronic Damage Analysis........................
- 5.3 Results and Discussion................................
- 5.3.1 Syringe-Injectable Electronics......................
- 5.3.2 Parameters for Syringe Injectable Electronics
- 5.3.3 Syringe-Injectable Electronics for Soft Matters.........
- Fig. 4.12 Hybrid macroporous nanoelectronic scaffolds...............
- Fig. 4.13 NanoES innervated synthetic neural tissue.................
- Fig. 4.14 NanoES innervated synthetic cardiac patch.................
- Fig. 4.15 Biocompatibility of nanoES.............................
- synthetic cardiac patch
- nanoES/neural constructs............................... Fig. 4.17 Multiplexed 3D recording from hybrid self-organized
- Fig. 4.18 Mesh nanoES innervated synthetic vascular construct.........
- Fig. 4.19 Synthetic vascular construct enabled pH sensing.............
- Fig. 5.1 Optical images of electronics structure....................
- Fig. 5.2 Schematics of mesh design.............................
- Fig. 5.3 Loading in needle....................................
- Fig. 5.4 Mechanics of mesh during rolling........................
- Fig. 5.5 Bonding process.....................................
- Fig. 5.6 Syringe-injectable electronics...........................
- Fig. 5.7 Stepwise injection....................................
- Fig. 5.8 Control of injection process.............................
- Fig. 5.9 Yield of injection....................................
- Fig. 5.10 Parameters for injection................................
- Fig. 5.11 Mechanical analysis for injection process..................
- Fig. 5.12 Control experiments of thinfilm electronics in needle.........
- Fig. 5.13 Injectable electronics for soft mater.......................
- Fig. 5.14 Inject electronics for tissue engineering....................
- Fig. 5.15 Injectable electronics for brain implants...................
- neural tissue Fig. 5.16 Interface between electronics and in vivo regenerative
