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Efficiency improvement in the cantilever photothermal excitation method using a photothermal conversion layer.


ABSTRACT: Photothermal excitation is a cantilever excitation method that enables stable and accurate operation for dynamic-mode AFM measurements. However, the low excitation efficiency of the method has often limited its application in practical studies. In this study, we propose a method for improving the photothermal excitation efficiency by coating cantilever backside surface near its fixed end with colloidal graphite as a photothermal conversion (PTC) layer. The excitation efficiency for a standard cantilever of PPP-NCHAuD with a spring constant of ?40 N/m and a relatively stiff cantilever of AC55 with a spring constant of ?140 N/m were improved by 6.1 times and 2.5 times, respectively, by coating with a PTC layer. We experimentally demonstrate high stability of the PTC layer in liquid by AFM imaging of a mica surface with atomic resolution in phosphate buffer saline solution for more than 2 h without any indication of possible contamination from the coating. The proposed method, using a PTC layer made of colloidal graphite, greatly enhances photothermal excitation efficiency even for a relatively stiff cantilever in liquid.

SUBMITTER: Inada N 

PROVIDER: S-EPMC4901543 | biostudies-literature | 2016

REPOSITORIES: biostudies-literature

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Efficiency improvement in the cantilever photothermal excitation method using a photothermal conversion layer.

Inada Natsumi N   Asakawa Hitoshi H   Kobayashi Taiki T   Fukuma Takeshi T  

Beilstein journal of nanotechnology 20160310


Photothermal excitation is a cantilever excitation method that enables stable and accurate operation for dynamic-mode AFM measurements. However, the low excitation efficiency of the method has often limited its application in practical studies. In this study, we propose a method for improving the photothermal excitation efficiency by coating cantilever backside surface near its fixed end with colloidal graphite as a photothermal conversion (PTC) layer. The excitation efficiency for a standard ca  ...[more]

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