{Reference Type}: Journal Article
{Title}: 3D Free-Standing Ordered Graphene Network Geometrically Regulates Neuronal Growth and Network Formation.
{Author}: Xiao M;Ulloa Severino FP;Iseppon F;Cheng G;Torre V;Tang M;
{Journal}: Nano Lett
{Volume}: 20
{Issue}: 10
{Year}: 10 2020 14
{Factor}: 12.262
{DOI}: 10.1021/acs.nanolett.0c02107
{Abstract}: The control of cell-microenvironment interactions plays a pivotal role in constructing specific scaffolds for tissue engineering. Here, we fabricated a 3D free-standing ordered graphene (3D-OG) network with a precisely defined pattern. When primary cortical cells are cultured on 3D-OG scaffolds, they form well-defined 3D connections. Astrocytes have a more ramified shape similar to that seen in vivo because of the nanosized ripples and wrinkles on the surface of graphene skeleton. Neurons have axons and dendrites aligned along the graphene skeleton, allowing the formation of neuronal networks with highly controlled connections. Neuronal networks have higher electrical activity with functional signaling over a long distance along the graphene skeleton. Our study, for the first time, investigated the geometrical cues on ordered neuronal growth and network formation with the support of graphene in 3D, which therefore advanced the development of customized scaffolds for brain-machine interfaces or neuroprosthetic devices.