1-Lever
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HQ:NSC15/Al BS
Standard Tapping Mode AFM Probe- 325 kHz 40 N/m
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HQ:NSC14/Al BS
Soft Tapping Mode AFM Probe- 160 kHz 5.0 N/m
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HQ:NSC18/Al BS
Soft Tapping Mode AFM Probe- 75 kHz 2.8 N/m
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Hi'Res-C15/Cr-Au
High Resolution, Tapping Mode AFM Probe- 325 kHz 40 N/m
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HQ:CSC17/Al BS
Contact Mode AFM Probe- 13 kHz 0.18 N/m
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HQ:NSC18/Pt
Conductive Soft Tapping Mode AFM Probe- 75 kHz 2.8 N/m
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HQ:NSC14/Cr-Au BS
Gold Coated Soft Tapping Mode AFM Probe- 160 kHz 5.0 N/m
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HQ:NSC18/Cr-Au BS
Gold Coated Soft Tapping Mode AFM Probe- 75 kHz 2.8 N/m
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HQ:NSC19/Al BS
Soft Tapping Mode and LFM AFM Probe- 65 kHz 0.5 N/m
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HQ:NSC15/Cr-Au BS
Gold Coated Tapping Mode AFM Probe- 325 kHz 40 N/m
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HQ:NSC18/Co-Cr/Al BS
Magnetic Force Microscopy AFM Probe- 75 kHz 2.8 N/m
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HQ:NSC15/No Al
Standard Tapping Mode AFM Probe- 325 kHz 40 N/m
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HQ:NSC14/No Al
Soft Tapping Mode AFM Probe- 160 kHz 5.0 N/m
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HQ:NSC18/No Al
Soft Tapping Mode AFM Probe- 75 kHz 2.8 N/m
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HQ:NSC19/No Al
Soft Tapping Mode and LFM AFM Probe- 65 kHz 0.5 N/m
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Hi'Res-C14/Cr-Au
High Resolution, Soft Tapping Mode AFM Probe- 160 kHz 5.0 N/m
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HQ:CSC17/No Al
Contact Mode AFM Probe- 13 kHz 0.18 N/m
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HQ:CSC17/Cr-Au BS
Gold Coated Contact Mode AFM Probe- 13 kHz 0.18 N/m
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HQ:NSC15/Pt
Conductive Tapping Mode AFM Probe- 325 kHz 40 N/m
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HQ:NSC14/Pt
Conductive Soft Tapping Mode AFM Probe- 160 kHz 5.0 N/m
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HQ:CSC17/Pt
Conductive Contact Mode AFM Probe- 13 kHz 0.18 N/m
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HQ:NSC18/Cr-Au
Gold Coated Soft Tapping Mode AFM Probe- 75 kHz 2.8 N/m
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HQ:CSC17/Cr-Au
Gold Coated Contact Mode AFM Probe- 13 kHz 0.18 N/m
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HQ:NSC14/Cr-Au
Gold Coated Soft Tapping Mode AFM Probe- 160 kHz 5.0 N/m
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HQ:NSC15/Cr-Au
Gold Coated Tapping Mode AFM Probe- 325 kHz 40 N/m
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Videos
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AFM Cantilever Shape
Rectangular (diving board) AFM cantilevers are the most widely used as the approximate values of their force constants and resonance frequencies can be easily calculated from their dimensions. Generally, any rectangular AFM cantilever can be produced with any required type of the AFM tip with a few exceptions.
SEM image of rectangular silicon AFM cantilever and AFM probe. Schematic drawing of the AFM probe chip. Application
The rectangular shape is the best in terms of Q-factor, regularity of the resonance curve, and ease of use. The simplicity of the geometry allows making some approximate calculations of some important parameters of the AFM cantilever like torsional and flexural force constants. These AFM probes are suitable for both contact and oscillatory AFM modes.
Scans and application notes