Abstract
Biohybrid microcylinders are fabricated using electrohydrodynamic cojetting followed by a surface chemistry approach to maximize cell-adhesive characteristics. As proper cell alignment and mechanical stiffness are important components of bioactuator design, spatial cell selectivity and stress/strain properties of microcylinders are characterized to demonstrate their capability of response to rat cardio-myocyte contraction. These microcylinders can find applications in a host of micromechanical systems.