Integrating polymers with inorganic nanostructures is difficult due to wetting and surface energy considerations. In this paper, we developed an electropolymerization method to grow conformal polymers on high aspect ratio nanostructures. Our method is shown to improve the polymer filling rate inside the nanostructures and can be used in the development of efficient hybrid solar cells. As an example, we have studied the hybrid system of electropolymerized polythiophene (e-PT) on ZnO planar and nanorod substrates using surface characterization methods. Although unsubstituted polythiophene is not the ideal polymer material for high efficiency solar cells, it is an excellent choice for studying basic bonding and morphology in hybrid structures. We find that e-PT is covalently bound to the polar ZnO planar substrate via a Zn–S bond, adopting an upright geometry. By contrast, no strong covalent bonding was observed between e-PT and ZnO nanorods that consist of nonpolar ZnO surfaces predominantly. We manipulated...