In this study, soft topographic patterns of polytetrafluoroethylene (PTFE) are produced on a Si substrate for self-assembly of gold nanoparticles (Au NPs). Linear PTFE patterns are fabricated by physically rubbing a PTFE bar on the substrate at high temperatures above its melting point (336 °C). For the directed self-assembly of Au NPs, the Au NPs with various diameters are directly synthesized and applied to the surface exposed between linear PTFE patterns where are chemically modified with 3-aminopropyltriethoxysilane (APTE). It is found that Au NPs are selectively placed between the linear patterns due to both effective size of the Au NPs for the dimension of the patterns and surface energy difference. By applying RIE process, it is exhibited that uniform arrays of the Au NPs are only remained on the substrates while all organic components are fully removed. Interestingly, it is also observed that the Au NPs merge with each other to form larger nanoparticles through additional thermal annealing process. Therefore, this study currently propose a simple and unique method to generate uniform assembly of nanoparticles for potential nanopatterning applications. Keywords: self-assembly, soft topographic pattern, gold nanoparticles, poltytetrafluoroethylene, nanopatterning.