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Order Code / Price*
Quantity
CP-FM-Au-A-5 Box of 5 AFM Probes
600.00 USD
sphere Ø = 1.5 - 3 µm
CP-FM-Au-B-5 Box of 5 AFM Probes
600.00 USD
sphere Ø = 3 - 5.5 µm
CP-FM-Au-C-5 Box of 5 AFM Probes
600.00 USD
sphere Ø = 5.5 - 9 µm
Price shown as ex-works and subjected to shipping charges, insurance, local VAT and custom duties respectively where applicable

CP-FM-Au

Colloidal AFM probe, AFM cantilever with round AFM tip like a ball

Manufacturer: sQube

Coating: none
AFM tip shape: Sphere, Gold
Sphere Diameter: 1.5 - 9 µm
AFM Cantilever
F 75 kHz
C 2.8 N/m
L 225 µm
*nominal values
Applications
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This colloidal probe combines the well-known features of the proven NANOSENSORS™ TL-FM tipless AFM probes, such as high application versatility and compatibility with most commercial SPMs, with a spherical microparticle instead of a sharp AFM tip.

The Colloidal Probe Technique, in which single colloids are attached with polymer glue to AFM cantilevers for force measurements, offers possibilities for a better understanding of fundamental interactions in a variety of fields. Examples are adhesion phenomena, particle-surface interactions, mechanical properties, suspensions, hydrodynamics and boundary slip, to name just a few out of the increasing number of applications.

The colloidal probe offers the following features:
  • sphere material: gold (Au)
  • sphere diameter A = 1.5 µm - 3 µm, B = 3 µm - 5.5 µm, or C = 5.5 µm - 9 µm, all typical values
    Please choose A, B, or C when ordering!
  • highly doped silicon AFM cantilever to dissipate static charge, chemically inert to most common solvents
  • high mechanical Q-factor for high sensitivity
  • precise alignment of the AFM cantilever position when used together with the NANOSENSORS™ Alignment Chip
  • compatible with the NANOSENSORS™ PointProbe® Plus XY-Alignment Series

Due to the different microparticle masses the resonance frequency may be lower than the one specified for the base tipless AFM cantilever.

Please note that state-of-the-art synthesis of gold microparticles does not guarantee ideal surface smoothness and ideal spherical shape. Some nanoroughness and small shape deviations are an inevitable result of the nature of the synthesis process.

This AFM probe features alignment grooves on the back side of the holder chip.

None
AFM Tip:

  • AFM Cantilever:
  • Beam
  • 2.8 N/m (0.5 - 9.5 N/m)*
  • 75 kHz (45 - 115 kHz)*
  • 225 µm (215 - 235 µm)*
  • 28 µm (20 - 35 µm)*
  • 3 µm ( 2 - 4 µm)*
  • * typical range
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