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Journal of Applied Physics
Volumn 108, Issue 3, 2010, Pages
Microcantilever dynamics in liquid environment dynamic atomic force microscopy when using higher-order cantilever eigenmodes
Author keywords

[No Author keywords available]
Indexed keywords

DRIVE CYCLES; DYNAMIC ATOMIC FORCE MICROSCOPY; EIGEN MODES; FORCE SPECTROSCOPY; HIGHER ORDER; LIQUID ENVIRONMENT; MICRO-CANTILEVERS; MULTI FREQUENCY; NANO-SCALE IMAGING; SUB-HARMONIC RESPONSE;
EID: 77955892281     PISSN: 00218979     EISSN: None     Source Type: Journal    
DOI: 10.1063/1.3457143     Document Type: Article
Times cited : (24)
References (26)
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    • Experiments were also performed with magnetic drive but the second eigenmode was hard to excite sufficiently thus subharmonics could not be seen as well compared to acoustic drive
    • Experiments were also performed with magnetic drive but the second eigenmode was hard to excite sufficiently thus subharmonics could not be seen as well compared to acoustic drive.
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    • At least two eigenmodes are needed to predict dynamics when driving the first eigenmode in liquids. We found three eigenmodes necessary while driving the second eigenmode
    • At least two eigenmodes are needed to predict dynamics when driving the first eigenmode in liquids. We found three eigenmodes necessary while driving the second eigenmode.
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    • Under conditions relevant to typical biological AFM (high concentration buffer solutions with amplitudes >2-3 nm) the forces due to adhesion, the electrical double layer, and solvation shells are relatively small and have little effect on the dynamics, justifying the use of Hertz model as opposed to more detailed models
    • Under conditions relevant to typical biological AFM (high concentration buffer solutions with amplitudes >2-3 nm) the forces due to adhesion, the electrical double layer, and solvation shells are relatively small and have little effect on the dynamics, justifying the use of Hertz model as opposed to more detailed models.
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    • d /4 with a 1 kHz bandwidth
    • d /4 with a 1 kHz bandwidth.

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.