%0 Journal Article %A Guan, Dongshi %A Barraud, Chloé %A Charlaix, Elisabeth %A Tong, Penger %D 2017 %T Noncontact Viscoelastic Measurement of Polymer Thin Films in a Liquid Medium Using Long-Needle Atomic Force Microscopy %U https://acs.figshare.com/articles/journal_contribution/Noncontact_Viscoelastic_Measurement_of_Polymer_Thin_Films_in_a_Liquid_Medium_Using_Long-Needle_Atomic_Force_Microscopy/4596718 %R 10.1021/acs.langmuir.6b04066.s001 %2 https://ndownloader.figshare.com/files/7440724 %K polymer %K surface %K glass fiber %K film %K cantilever beam %K long-needle probe %K experiment verifies %K force microscopy %K Long-Needle Atomic Force Microscopy %K noncontact measurement %K Liquid Medium %K hydrodynamic force %K response theory %K needle tip %K nanoscale flow %K Noncontact Viscoelastic Measurement %K loss moduli %X We report the noncontact measurement of the viscoelastic property of polymer thin films in a liquid medium using frequency-modulation atomic force microscopy with a newly developed long-needle probe. The probe contains a long vertical glass fiber with one end adhered to a cantilever beam and the other end with a sharp tip placed near the liquid–film interface. The nanoscale flow generated by the resonant oscillation of the needle tip provides a precise hydrodynamic force acting on the soft surface of the thin film. By accurately measuring the mechanical response of the thin film, we obtain the elastic and loss moduli of the thin film using the linear response theory of elastohydrodynamics. The experiment verifies the theory and demonstrates its applications. The technique can be used to accurately measure the viscoelastic property of soft surfaces, such as those made of polymers, nanobubbles, live cells, and tissues. %I ACS Publications