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smaller than 200μm. the two correspondingfitting relation are 0.499/rand 0.473/ r. For the needle diameter around 100μm, the max ...
electronics, proving the biocompatibility of the electronics. It is noticeable that the width of ribbons was similar to the neur ...
Fig. 5.13 Injectable electronics for soft mater. a,b, Optical images of PDMS cavity before injection (a) and the hybrid structur ...
5.3.4 Syringe-Injectable Electronics for Behaving Rodent Brais Based on our simulation,DL of mesh electronics that can be inject ...
Fig. 5.15 Injectable electronics for brain implants.aSchematic shows stereotactic injection of injectable electronics into in vi ...
Fig. 5.16 Interface between electronics and in vivo regenerative neural tissue.aProjection of 30 μm thick volume of slice shows ...
of astrocytes around the electronics and a tight junction between neurons and unfolded mesh electronics (Fig.5.15f). To further ...
Bibliography Reuss RH, Hopper DG, Park J (2006) Macroelectronics. MRS Bull 31:447 Thakor NV (2013) Translating the brain-machin ...
Koiter WT (2008) Elastic stability of solids and structures. Cambridge University Press, Cambridge Tada H, Paris PC, Irwin GR ( ...
Chapter 6 Outlook In thefirst part of this thesis, we introduced newflexible macroporous nanoelec- tronics that incorporate phot ...
integration of this biomimetic 3D nanoelectronic network with synthetic tissue scaffolds as hybrid nanoelectronic scaffold (nano ...
and monitoring [ 8 ]. The third one will be building of a dynamic nanoelectronic systems that can expend together with the devel ...
Feiner R et al (2016) Engineered hybrid cardiac patches with multifunctional electronics for online monitoring and regulation o ...
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