Probing Local Bias-Induced Transitions Using Photothermal Excitation Contact Resonance Atomic Force Microscopy and Voltage Spectroscopy

摘要

Nanomechanical properties are closely related to the states of matter, including chemical composition, crystal structure, mesoscopic domain configuration, etc. investigation of these properties at the nanoscale requires not only static imaging methods, e.g., contact resonance atomic force microscopy (CR-AFM), but also spectroscopic methods, capable of revealing, their dependence On various external stimuli. Here we demonstrate the voltage spectroscopy of CR-AFM, which was realized by combining photothermal excitation (as opposed to the conventional piezoacoustic excitation method) with the band excitation technique: We applied this spectroscopy to explore local bias-Induced phenomena ranging from-purely-physical-to surface electromechanical and electrochemical processes. Our measurements show that the changes in:the surface properties associated with these bias-induced transitions can be accurately assessed In a-fast and dynamic manner using resonance frequency as a signature. With many of the advantages-offered by. photothermal excitation, contact resonance voltage spectroscopy not only is expected,to find applications in-a broader field-of nanoscience but also will provide a basis for future development of other nanoscale elastic spectroscopies.