Development of a stimuli-responsive polymer nanocomposite towardbiologically optimized, MEMS-based neural probes Read more about Development of a stimuli-responsive polymer nanocomposite towardbiologically optimized, MEMS-based neural probes
In vivo deployment of mechanically adaptive nanocomposites forintracortical microelectrodes Read more about In vivo deployment of mechanically adaptive nanocomposites forintracortical microelectrodes
Self-Assembly and Alignment of Semiconductor Nanoparticles on Cellulose Nanocrystals Read more about Self-Assembly and Alignment of Semiconductor Nanoparticles on Cellulose Nanocrystals
Mechanically Adaptive Intracortical Implants Improve the Proximity of Neuronal Cell Bodies Read more about Mechanically Adaptive Intracortical Implants Improve the Proximity of Neuronal Cell Bodies
Mechanical behaviour of microstructures from a chemo-responsive polymer nanocomposite based on cotton cellulose nanofibers Read more about Mechanical behaviour of microstructures from a chemo-responsive polymer nanocomposite based on cotton cellulose nanofibers
In vivo deployment of mechanically adaptive nanocomposites for intracortical microelectrodes Read more about In vivo deployment of mechanically adaptive nanocomposites for intracortical microelectrodes
Development of a stimuli-responsive polymer nanocomposite toward biologically-optimized, MEMS-based neural probes Read more about Development of a stimuli-responsive polymer nanocomposite toward biologically-optimized, MEMS-based neural probes
Development of a stimuli-responsive polymer nanocomposite toward biologically-optimized MEMS-based neural probes Read more about Development of a stimuli-responsive polymer nanocomposite toward biologically-optimized MEMS-based neural probes
Mechanically adaptive intracortical implants improve the proximity ofneuronal cell bodies Read more about Mechanically adaptive intracortical implants improve the proximity ofneuronal cell bodies
