This thesis is divided into two parts. In the first part, we fabricate polymer fibers by using electrospinning setup. By controlling the parameters of electrospinning, the diameters of the electrospun polymer fibers can be controlled in the micron or nanometer scales. Poly(methyl methacrylate)(PMMA) fibers are prepared and collected on a glass substrate and are brought into contact with an anodic aluminum oxide(AAO) template. Upon thermal annealing above the glass transition temperature of PMMA, wetting of the polymer chains into the nanopores occurs. After the removal of the AAO template, ordered arrays of nanorods on fibers are obtained. The pore size of the templates and the diameters of the electrospun fibers can be controlled, and different annealing temperatures and times are also applied to control the hierarchical polymer structures. The second part of this thesis is to investigate the change of the surface roughness by thermal annealing. The surface of the as-spun polymer fibers is usually rough because of the rapid evaporation of the solvent. After thermal annealing, the rough surface of the fibers becomes smooth. The water contact angles of polymer fibers by different annealing treatments are studied. In addition to PS and PMMA, we also used polymers with lower surface energy and polymer blends. The surface properties of these materials are also studied, and the relationship between the surface roughness and the contract angle is established.