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DT-NCLR-10 Box of 10 AFM Probes
1408.00 USD
DT-NCLR-50 Box of 50 AFM Probes
5556.00 USD
Your volume discount is 1484.00 USD or 21.10%
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DT-NCLR

Diamond Coated Tapping Mode AFM Probe with Long AFM Cantilever

Manufacturer: NANOSENSORS

Coating: Diamond
AFM tip shape: Standard
AFM Cantilever
F 210 kHz
C 72 N/m
L 225 µm
*nominal values
Applications
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NANOSENSORS™ DT-NCLR 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 AFM probe (NCH). The NCL type AFM cantilever is recommended if the feedback loop of the microscope does not accept high frequencies (400 kHz) or if the detection system needs a minimum AFM cantilever length > 125 µm.

Compared to the high frequency non-contact type NCH the maximum scanning speed is slightly reduced. This AFM probe combines high operation stability with outstanding sensitivity and fast scanning ability.

For applications that require hard contact between AFM tip and sample this sensor offers a real diamond tip-side coating. This coating features extremely high wear resistance due to the unsurpassed hardness of diamond. The typical macroscopic AFM tip radius of curvature is between 100 and 200 nm. Nanoroughnesses in the 10 nm regime improve the resolution on flat surfaces.

The AFM probe offers unique features:
  • real diamond coating
  • high mechanical Q-factor for high sensitivity
  • precise alignment of the AFM cantilever position (within +/- 2 µm) when used with the Alignment Chip
  • compatible with PointProbe® Plus XY-Alignment Series

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

The DT Diamond Coating is an approximately 100 nm thick coating of polycrystalline diamond on the tip-side of the AFM cantilever leading to an unsurpassed hardness of the AFM tip. The Raman spectrum of the coating verifies the real diamond coating.

The reflective coating is an approximately 30 nm thick aluminum coating on the detector side of the AFM cantilever which enhances the reflectivity of the laser beam by a factor of about 2.5. Furthermore it prevents light from interfering within the AFM cantilever. As the coating is nearly stress-free the bending of the AFM cantilever due to stress is less than 2 degrees.

AFM Tip:

  • AFM Cantilever:
  • Beam
  • 72 N/m (34 - 142 N/m)*
  • 210 kHz (155 - 275 kHz)*
  • 225 µm (215 - 235 µm)*
  • 37.5 µm (30 - 45 µm)*
  • 7 µm ( 6 - 8 µm)*
  • * guaranteed range
    Interested in learning about how this AFM probe has been used by fellow researchers?
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