The chemical grafting of thiol-terminated poly(N-isopropylacrylamide) (HS-PNIPAM) chains to a gold surfacefrom a solution was investigated with a quartz crystal microbalance (QCM) in real time. The frequency andenergy dissipation responses revealed that short HS-PNIPAM chains exhibit three-regime kinetics of thegrafting. In regimes I and II, the HS-PNIPAM chains form pancake and mushroom structures, respectively.In regime III, the chains form brushes. From regime II to regime III, the mushroom-to-brush transition occurs.For the longer HS-PNIPAM chains, because of the strong segment-surface interaction, the segments cannotdesorb from the surface, and the chains do not undergo a pancake-to-brush transition.