TY - JOUR A1 - Li, Z. A1 - Gao, S. A1 - Brand, U. A1 - Hiller, K. A1 - Wollschläger, Nicole A1 - Pohlenz, F. T1 - Note: Nanomechanical characterization of soft materials using a micro-machined nanoforce transducer with an FIB-made pyramidal tip N2 - The quantitative nanomechanical characterization of soft materials using the nanoindentation technique requires further improvements in the performances of instruments, including their force Resolution in particular. A micro-machined silicon nanoforce transducer based upon electrostatic comb drives featuring the force and depth resolutions down to 1 nN and 0.2 nm, respectively, is described. At the end of theMEMStransducer’s main shaft, a pyramidal tip is fabricated using a focused ion beam facility. A proof-of-principle setup with this MEMS nanoindenter has been established to measure the mechanical properties of soft polydimethylsiloxane. First measurement results demonstrate that the prototype measurement system is able to quantitatively characterize soft materials with elastic moduli down to a few MPa. KW - MEMS KW - Indentation KW - Soft material PY - 2017 U6 - https://doi.org/10.1063/1.4977474 SN - 0034-6748 SN - 1089-7623 VL - 88 IS - 3 SP - 036104-1 EP - 036104-3 PB - AIP Publishing AN - OPUS4-39313 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER -