AFM Probes  »  
 Order
 Request a quote (RFQ)
Order Code / Price*
Quantity
HQ:DPER-XSC11-15 Box of 15 AFM Probes
510.00 EUR
HQ:DPER-XSC11-50 Box of 50 AFM Probes
1500.00 EUR
Your volume discount is 200.00 EUR or 11.80%
HQ:DPER-XSC11-100 Box of 100 AFM Probes
2600.00 EUR
Your volume discount is 800.00 EUR or 23.50%
Product availability: On stock
Get a free MikroMasch poster

HQ:DPER-XSC11

AFM Probe with 4 Different Electrical AFM Cantilevers

Manufacturer: MikroMasch

Coating: Electrically Conductive
AFM tip shape: Rotated
This probe features 4 cantilevers
F 15 kHz
C 0.2 N/m
L 500 µm
F 80 kHz
C 2.7 N/m
L 210 µm
F 155 kHz
C 7 N/m
L 150 µm
F 350 kHz
C 42 N/m
L 100 µm
*nominal values
Applications
How to optimize AFM scan parameters gear icon

AFM probes of the 11 series have four different AFM cantilevers, two on each side of the holder chip. They can be used for various electrical measurements.

The DPER AFM probes are made by depositing a thin metal coating on Si AFM tips. The thickness of the coating on the flat AFM cantilever surface is about 15 nm, resulting in a coated AFM tip radius below 20 nm. The AFM probes can be used for imaging samples with higher resolution in XY directions.

The DPER AFM probes are made by depositing a thin Pt coating on both sides of the Si AFM cantilevers. The thickness of the coating on the flat AFM cantilever surface is about 15 nm.
AFM Tip:

  • 4 AFM Cantilevers:
    Cantilever A
  • Beam
  • 0.2 N/m (0.1 - 0.4 N/m)*
  • 15 kHz (12 - 18 kHz)*
  • 500 µm (495 - 505 µm)*
  • 30 µm (27 - 33 µm)*
  • 2.7 µm ( 2.2 - 3.2 µm)*
  • Cantilever B
  • Beam
  • 2.7 N/m (1.1 - 5.6 N/m)*
  • 80 kHz (60 - 100 kHz)*
  • 210 µm (205 - 215 µm)*
  • 30 µm (27 - 33 µm)*
  • 2.7 µm ( 2.2 - 3.2 µm)*
  • Cantilever C
  • Beam
  • 7 N/m (3 - 16 N/m)*
  • 155 kHz (115 - 200 kHz)*
  • 150 µm (145 - 155 µm)*
  • 30 µm (27 - 33 µm)*
  • 2.7 µm ( 2.2 - 3.2 µm)*
  • Cantilever D
  • Beam
  • 42 N/m (17 - 90 N/m)*
  • 350 kHz (250 - 465 kHz)*
  • 100 µm (95 - 105 µm)*
  • 50 µm (47 - 53 µm)*
  • 2.7 µm ( 2.2 - 3.2 µm)*
  • * typical range
    Loading
    nanosensors-logo
    nanoworld-logo
    budgetsensors-logo
    mikromasch-logo
    opus-logo
    sqube-logo
    nanotools-logo