Sputtering of organic materials using a C-60 primary ion beam has been demonstrated to produce significantly less accumulated damage compared to sputtering with monatomic and atomic-cluster ion beams. However, much about the dynamics of C-60 sputtering remains to be understood. We introduce data regarding the dynamics of C-60 sputtering by evaluating TOF-SIMS depth profiles of bulk poly(methyl methacrylate) (PMMA). Bulk PMMA provides an ideal test matrix with which to probe C-60 sputter dynamics because there is a region of steady-state secondary ion yield followed by irreversible signal degradation. C-60 sputtering of PMMA is evaluated as a function of incident ion kinetic energy using 10 keV C-60(+), 20 keV C-60(+) and 40 keV C-60(++) primary ions. Changes in PMMA chemistry, carbon accumulation and graphitization, and topography as a function of total C-60 ion dose at each accelerating potential is addressed. (c) 2008 Elsevier B.V. All rights reserved.