AFM Probes » PL2-NCLR

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PL2-NCLR-10 Box of 10 AFM Probes
889.00 USD
Product availability: On stock

PL2-NCLR

Tapping Mode AFM Probe with Long Cantilever and Plateau Tip

Coating: Reflex Aluminum
Tip shape: Plateau
Cantilever:
F 190 kHz
C 48 N/m
L 225 µm
*nominal values

Applications

The Plateau Tip series based on the well-established NANOSENSORS™ Silicon-SPM-Probes exhibit an intentionally blunt tip with a well-defined circular end-face located at the free end of a micromechanical cantilever. This plateau is formed by focused ion beam milling out of a symmetrically etched tip building a rod on top of a conical tip.

NANOSENSORS™ PL2-NCL AFM probes are designed for non-contact mode or tapping mode AFM (also known as: attractive or dynamic mode). The NCL type is offered as an alternative to NANOSENSORS™ high frequency non contact type (NCH). PL2-NCL is recommended if the feedback loop of the microscope does not accept high frequencies (400 kHz) or if the detection system needs a minimum cantilever length > 125 µm. Compared to the high frequency non-contact type NCH the maximum scanning speed is slightly reduced. This probe type combines high operation stability with outstanding sensitivity and fast scanning ability.

Upon request customized larger plateau diameters can be realized. Other shapes are also possible upon request.

The probe offers unique features:

  • plateau diameter of typically 1.8 µm
  • single crystalline silicon
  • highly doped silicon to dissipate static charge
  • Al coating on detector side of cantilever
  • chemically inert
  • high mechanical Q-factor for high sensitivity
  • alignment grooves on backside of silicon holder chip
  • precise alignment of the cantilever position (within +/- 2 µm) when used with the Alignment Chip
  • compatible with PointProbe® Plus XY-Alignment Series

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

Aluminium coating on detector side of cantilever.

AFM Tip:


  • AFM Cantilever:

  • Beam
  • 48 N/m (21 - 98 N/m)*
  • 190 kHz (146 - 236 kHz)*
  • 225 µm (215 - 235 µm)*
  • 38 µm (30 - 45 µm)*
  • 7 µm (6 - 8 µm)*
  • * typical range
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