To broaden the applications of polymer particles, it is desired to increase its anisotropy. This thesis mainly focuses on developing novel methods, which are based on a thermal stretching technique, to fabricate anisotropic polymer particles. This thesis is divided into three parts. In the first part, we improve the old thermal stretching method to fabricate anisotropic polystyrene particles by stretching poly(vinyl alcohol) （PVA） films embedded with polystyrene microspheres. In the second part, we develop a simple approach to manipulate the shapes of anisotropic particles. By adding tetrahydrofuran into the anisotropic polystyrene particle suspensions, the viscosities of the polystyrene particles are decreased. The anisotropic polystyrene particles gradually transform into polystyrene spheres, which possess lower surface and interfacial energies. In the third part, we develop a new method to fabricate different kinds of anisotropic particles simultaneously. By thermal annealing-induced PVA film contraction, the polystyrene spheres are stretched to anisotropic particles. Polystyrene oblate spheroids and polystyrene prolate spheroids with aspect ratios of 1.5 and 1.2 can be observed on the PVA films. This thesis improves the traditional thermal stretching technique, increases its efficiency to fabricate multiple anisotropic particles simultaneously, and provides a novel method to control particle shapes.