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AFM Probe Selection Guide
How to choose an AFM probe
AFM Probe Selection Guide Book
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For optimal performance with our AFM systems please request a quote from Park Systems. Mounted cantilevers are additionally tested. All probes that are not listed here from Adama Innovations, Applied Nano Structures, Inc, BudgetSensors, MikroMasch, Nanosensors™, Nanotools GmbH, Nanoworld AG, NuNano, Olympus Corp., are possible to order from our probe store. Probes from other manufacturers also can be possible to order upon request for quotation. The performance of probes ordered from other sources are not guaranteed.

Probe Force Constant (N/m) Frequency (kHz ) Manufacture Short Description Quote
PPP-NCHR 42 330 Nanosensors ▪ Non-contact cantilever with high resonant frequency
▪ Backside reflex coating (AI)
Request for Quote

The reflex coating is an approximately 30 nm thick aluminum coating on the detector side of the cantilever which enhances the reflectivity of the laser beam by a factor of about 2.5. Furthermore it prevents light from interfering within the cantilever. The virtually stress-free coating is bending the cantilever less than 3.5% of the cantilever length.

Technical Data Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 22.5 - 37.5
Length /µm 125 115 - 135
Force Constant /(N/m) 42 10 - 130
Resonance Frequency /kHz 330 204 - 497
SSS-NCHR 42 330 Nanosensors ▪ Non-contact cantilever with sharp tip
▪ Backside reflex coating (Al)
▪ Tip radius: 2 nm typical, < 5 nm max.
Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 30 - 45
Length /µm 125 115 - 135
Force Constant /(N/m) 42 10 - 130
Resonance Frequency /kHz 330 204 - 497
PPP-NCH 42 330 Nanosensors ▪ Non-contact cantilever with high resonant frequency Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 22.5 - 37.5
Length /µm 125 115 - 135
Force Constant /(N/m) 42 10 - 130
Resonance Frequency /kHz 330 204 - 497
SSS-NCH 42 330 Nanosensors ▪ Non-contact cantilever with sharp tip
▪ Tip radius: 2 nm typical, < 5 nm max.
Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 30 - 45
Length /µm 125 115 - 135
Force Constant /(N/m) 42 10 - 130
Resonance Frequency /kHz 330 204 - 497
PPP-NCLR 48  190  Nanosensors  ▪ Non-contact cantilever with low resonant frequency
▪ Backside reflex coating (Al)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 7 6.0 - 8.0
Mean Width /µm 38 30 - 45
Length /µm 225 215 - 235
Force Constant /(N/m) 48 21 - 98
Resonance Frequency /kHz 190 146 - 236
SSS-NCLR 48 190 Nanosensors ▪ Non-contact cantilever with low resonant frequency
▪ Backside reflex coating (Al)
▪ Tip radius: 2 nm typical, < 5 nm max.
Request for Quote
 
Technical Data Nominal Value Specified Range
Thickness /µm 7 6.0 - 8.0
Mean Width /µm 38 30 - 45
Length /µm 225 215 - 235
Force Constant /(N/m) 48 21 - 98
Resonance Frequency /kHz 190 146 - 236
PPP-NCL 48  190  Nanosensors ▪ Non-contact cantilever with low resonant frequency of ~ 200 kHz Request for Quote
 
Technical Data Nominal Value Specified Range
Thickness /µm 7 6.0 - 8.0
Mean Width /µm 38 30 - 45
Length /µm 225 215 - 235
Force Constant /(N/m) 48 21 - 98
Resonance Frequency /kHz 190 146 - 236
SSS-NCL  48  190  Nanosensors ▪ Non-contact cantilever with sharp tip
▪ Tip radius: 2 nm typical, < 5 nm max.
Request for Quote
 
Technical Data Nominal Value Specified Range
Thickness /µm 7 6.0 - 8.0
Mean Width /µm 38 30 - 45
Length /µm 225 215 - 235
Force Constant /(N/m) 48 21 - 98
Resonance Frequency /kHz 190 146 - 196
NSC15/AL BS  40  325  Mikromasch ▪ Non-contact cantilever
▪ Backside reflex coating
 Request for Quote

Cantilevers of the 15 series are generally used in tapping mode for imaging hard samples, when high topographic and phase contrast are necessary. The 15 series is also good for non-contact AFM. 

Technical Data Nominal Value Specified Range
Thickness /µm 4 3.5 - 4.5
Mean Width /µm 30 27 - 33
Length /µm 125 120 - 130
Force Constant /(N/m) 40 20 - 80
Resonance Frequency /kHz 325 265 - 410
AR5-NCH  42  330  Nanosensors ▪ Non-contact cantilever with high aspect ratio tip (>5:1)  Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 30 - 45
Length /µm 125 115 - 135
Force Constant /(N/m) 42 10 - 130
Resonance Frequency /kHz 330 204 - 497
AR5-NCLR  48  190  Nanosensors ▪ Non-contact cantilever with high aspect ratio tip (>5:1)▪ Backside reflex coating  Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 7.0 6.0 - 8.0
Mean Width /µm 38 30 - 45
Length /µm 225 215 - 235
Force Constant /(N/m) 48 21 - 98
Resonance Frequency /kHz 190 146 - 236
AR5-NCHR  42  320  Nanosensors ▪ Non-contact cantilever with high aspect ratio tip (>5:1)
▪ Backside reflex coating (Al)
 Request Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 30 - 45
Length /µm 125 115 - 135
Force Constant /(N/m) 42 10 - 130
Resonance Frequency /kHz 330 204 - 497
AR5T-NCHR  42  330  Nanosensors ▪ Non-contact cantilever with high aspect ratio tip (>5:1)
▪ Backside reflex coating (Al)
▪ High aspect ratio portion of the tip tilted 13°
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 22.5 - 37.5
Length /µm 125 115 - 135
Force Constant /(N/m) 42 10 - 130
Resonance Frequency /kHz 330 204 - 497
AR5T-NCH  42  330  Nanosensors ▪ Non-contact cantilever with high aspect ratio tip (>5:1)
▪ High aspect ratio portion of the tip tilted 13°
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 22.5 - 37.5
Length /µm 125 115 - 135
Force Constant /(N/m) 42 10 - 130
Resonance Frequency /kHz 330 204 - 497
OMCL-AC160TS  26  300  Olympus ▪ Non-contact cantilever with high resonant frequency
▪ backside reflex coating
▪ Tip end visible from top
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 3.7  
Mean Width /µm 40  
Length /µm 160  
Force Constant /(N/m) 26  
Resonance Frequency /kHz 300 200 - 400
ATEC-NC  45  335  Nanosensors ▪ Non-contact cantilever
▪ Tip visibility from top
 Request for Quote

These tips are designed for non-contact or tapping mode imaging. They feature a tetrahedral tip that protrudes from the very end of the cantilever allowing it to be the only probe to offer real tip visibility from the top even if the probe is tilted.

Technical Data Nominal Value Specified Range
Thickness /µm 4.6 3.6 - 5.6
Mean Width /µm 45 40 - 50
Length /µm 160 150 - 170
Force Constant /(N/m) 45 12 - 110
Resonance Frequency /kHz 335 210 - 490
ACTA  37  300  AppNano ▪ Non-contact cantilever
▪ Backside reflex coating (Al)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4 3.5 - 4.5
Mean Width /µm 30 25 - 35
Length /µm 125 115 - 135
Force Constant /(N/m) 37 13 - 77
Resonance Frequency /kHz 300 200 - 400
HARTA-12-2  40  300  AppNano ▪ Non-contact cantilever with high aspect ratio tip (>5:1)
▪ Backside reflex coating (Al)
▪ High aspect ratio portion of the tip tilted 12°
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.5 4.0 - 5.0
Mean Width /µm 35.0 30.0 - 40.0
Length /µm 125.0 115.0 - 135.0
Force Constant /(N/m) 40 25 - 75
Resonance Frequency /kHz 300 200 - 400
HARTA-12-4  40  300  AppNano ▪ Non-contact cantilever with high aspect ratio tip
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 12°
▪ Typical tip length: ~4 um
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.5 4.0 - 5.0
Mean Width /µm 35.0 30.0 - 40.0
Length /µm 125.0 115.0 - 135.0
Force Constant /(N/m) 40 25 - 75
Resonance Frequency /kHz 300 200 - 400
HARTA-12-6  40  300  AppNano ▪ Non-contact cantilever with high aspect ratio tip
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 12°
▪ Typical tip length: ~6 um
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.5 4.0 - 5.0
Mean Width /µm 35.0 30.0 - 40.0
Length /µm 125.0 115.0 - 135.0
Force Constant /(N/m) 40 25 - 75
Resonance Frequency /kHz 300 200 - 400
EBD2-100A  40  320  nanotools ▪ Non-contact cantilever with high aspect ratio tip (>6:1) (HDC/DLC)
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 13°
▪ Typical tip length: ~2 um
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.4 3.9 - 4.9
Mean Width /µm 30.0 28.0 - 32.0
Length /µm 120.0 115.0 - 125.0
Force Constant /(N/m) 40 20 - 60
Resonance Frequency /kHz 320 270 - 370
EBD4-200A  40  320  nanotools ▪ Non-contact cantilever with high aspect ratio tip (>10:1) (HDC/DLC)
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 13°
▪ Typical tip length: ~4 um (max.)
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.4 3.9 - 4.9
Mean Width /µm 30.0 28.0 - 32.0
Length /µm 120.0 115.0 - 125.0
Force Constant /(N/m) 40 20 - 60
Resonance Frequency /kHz 320 270 - 370
EBD6-400A  40  320  nanotools ▪ Non-contact cantilever with high aspect ratio tip (>10:1) (HDC/DLC)
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 13°
▪ Typical tip length: ~6 um (max.)
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.4 3.9 - 4.9
Mean Width /µm 30.0 28.0 - 32.0
Length /µm 120.0 115.0 - 125.0
Force Constant /(N/m) 40 20 - 60
Resonance Frequency /kHz 320 270 - 370
EBD8-600A  40  320  nanotools ▪ Non-contact cantilever with high aspect ratio tip (>10:1) (HDC/DLC)
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 13°
▪ Typical tip length: ~8 um (max.)
▪ Package of 5 (EA)
 Request Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.4 3.9 - 4.9
Mean Width /µm 30.0 28.0 - 32.0
Length /µm 120.0 115.0 - 125.0
Force Constant /(N/m) 40 20 - 60
Resonance Frequency /kHz 320 270 - 370
MCNT-100™ Park AAFM  40  320  nanotools ▪ Non-contact cantilever with narrow width and high aspect ratio tip (HDC/DLC)
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 12°
▪ Typical tip length: ~100 nm
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.4 3.9 - 4.9
Mean Width /µm 30.0 28.0 - 32.0
Length /µm 120.0 115.0 - 125.0
Force Constant /(N/m) 40 20 - 60
Resonance Frequency /kHz 320 270 - 370
MCNT-150™ Park AAFM  40  320  nanotools ▪ Non-contact cantilever with narrow width and high aspect ratio tip (HDC/DLC)
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 12°
▪ Typical tip length: ~150 nm (max.)
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.4 3.9 - 4.9
Mean Width /µm 30.0 28.0 - 32.0
Length /µm 120.0 115.0 - 125.0
Force Constant /(N/m) 40 20 - 60
Resonance Frequency /kHz 320 270 - 370
M-CNT-300  40  320  nanotools ▪ Non-contact cantilever with narrow width and high aspect ratio tip (HDC/DLC)
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 12°
▪ Typical tip length: ~300 nm (max.)
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.4 3.9 - 4.9
Mean Width /µm 30.0 28.0 - 32.0
Length /µm 120.0 115.0 - 125.0
Force Constant /(N/m) 40 20 - 60
Resonance Frequency /kHz 320 270 - 370
M-CNT-400  40  320  nanotools ▪ Non-contact cantilever with narrow width and high aspect ratio tip (HDC/DLC)
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 12°
▪ Typical tip length: ~400 nm (max.)
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.4 3.9 - 4.9
Mean Width /µm 30.0 28.0 - 32.0
Length /µm 120.0 115.0 - 125.0
Force Constant /(N/m) 40 20 - 60
Resonance Frequency /kHz 320 270 - 370
M-CNT-500  40  320  nanotools ▪ Non-contact cantilever with narrow width and high aspect ratio tip (HDC/DLC)
▪ Backside reflex coating (Al)
▪ Tip tilt compensation: 12°
▪ Typical tip length: ~500 nm (max.)
▪ Package of 5 (EA)
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 4.4 3.9 - 4.9
Mean Width /µm 30.0 28.0 - 32.0
Length /µm 120.0 115.0 - 125.0
Force Constant /(N/m) 40 20 - 60
Resonance Frequency /kHz 320 270 - 370
HI'RES-C14/Cr-Au  5  160  MikroMasch ▪ Non-contact cantilever with low resonant frequency
▪ Backside reflective coating (Au)
▪ Tip radius: 1 nm typical
 Request for Quote
Technical Data Nominal Value Specified Range
Thickness /µm 2.1 1.6 - 2.6
Mean Width /µm 25.0 22.0 - 28.0
Length /µm 125.0 120.0 - 130.0
Force Constant /(N/m) 5 1.8 - 13
Resonance Frequency /kHz 160 110 - 160
Scout 70 2 70 ▪ Non-contact cantilever with high resonant frequency
▪ Backside reflex coating (Al)
▪ Typical tip length: 5 - 8 μm
▪ Typical tip radius: ~5 nm
Request for Quote
Scout 150 18 150 ▪ Non-contact cantilever with high resonant frequency
▪ Backside reflex coating (Al) (Al)
▪ Typical tip length: 5 - 8 μm
▪ Typical tip radius: ~5 nm
Request for Quote
Scout 350 42 350 ▪ Non-contact cantilever with high resonant frequency
▪ Backside reflex coating (Al) (Al)
▪ Typical tip length: 5 - 8 μm
▪ Typical tip radius: ~5 nm
Request for Quote
PPP-CONTSCR 0.2 25 Nanosensors ▪ Contact cantilever
▪ Backside reflex coating (Al)
Request for Quote

The NANOSENSORS™ PPP-CONTSCR is an alternative cantilever type for contact mode applications. The length of cantilever is reduced with respect to the preferred contact mode type enabling easier exchange with non-contact mode probes for some AFM instruments. Additionally, this probe type allows the application for lateral or friction force mode.

Technical Data Nominal Value Specified Range
Thickness /µm 1 0.1-2.0
Mean Width /µm 48 40 - 55
Length /µm 225 215 - 235
Force Constant /(N/m) 0.2 0.01 - 1.87
Resonance Frequency /kHz 23 1 - 57
NSC36/Al BS 1
2
0.6
90
130
65
Mikromasch ▪ Contact cantilever
▪ Backside reflex coating (Al)
▪ 3 cantilevers on a chip
Request for Quote
.
NSC36,
Cantilevers
Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
A 30 90 160 0.1 1 4.6 110 32.5 1.0
B 45 130 240 0.2 2 9 90 32.5 1.0
C 25 65 115 0.06 0.6 2.7 130 32.5 1.0
PNP-DB 0.48
0.03
67
17
Nanoworld ▪ Contact cantilever made of silicon nitride
▪ Backside reflective coating (Au)
▪ 2 cantilevers on a chip
Request for Quote
Cantilever Data Cant. 1 Cant. 2
Thickness 0.5 µm 0.5 µm
Mean Width 40 µm 40 µm
Length 100 µm 200 µm
Force Constant 0.48 N/m 0.06 N/m
Resonance Frequency 67 kHz 17 kHz
NSC36/HARD/AI BS 1
2
0.6
90
130
65
Mikromasch ▪ Contact cantilever
▪ Backside reflective coating (Al)
▪ 3 cantilevers on a chip
▪ Hard Diamond-Like-Carbon coated tip
Request for Quote
NSC36,
Cantilevers
Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
A 30 90 160 0.1 1 4.6 110 32.5 1.0
B 45 130 240 0.2 2 9 90 32.5 1.0
C 25 65 115 0.06 0.6 2.7 130 32.5 1.0
PNP-DB 0.48
0.03
67
17
Nanoworld ▪ Contact cantilever made of silicon nitride
▪ Backside reflective coating (Au)
▪ 2 cantilevers on a chip
Request for Quote
Cantilever Data Cant. 1 Cant. 2
Thickness 0.5 µm 0.5 µm
Mean Width 40 µm 40 µm
Length 100 µm 200 µm
Force Constant 0.48 N/m 0.06 N/m
Resonance Frequency 67 kHz 17 kHz
PNP-TR 0.32
0.08
67
17
Nanoworld ▪ Contact cantilever made of silicon nitride
▪ Backside reflective coating (Au)
▪ 2 triangular cantilevers on a chip
Request for Quote
Cantilever Data Cant. 1 Cant. 2
Thickness 0.5 µm 0.5 µm
Mean Width 13.5 µm 28 µm
Length 100 µm 200 µm
Force Constant 0.32 N/m 0.08 N/m
Resonance Frequency 67 kHz 17 kHz
PPP-LFMR 0.2 23 Nanosensors ▪ Contact cantilever with high sensitivity for lateral/frictional force measurement
▪ Backside reflective coating (Al)
Request for Quote
Cantilever Data Nominal Value Specified Range
Thickness /µm 1 0.1 - 2.0
Mean Width /µm 48 40 - 55
Length / µm 225 215 - 235
Force Constant /(N/m) 0.2 0.01 - 1.87
Resonance Frequency /kHz 23 1 - 57
CDT-NCHR 80 400 Nanosensors ▪ Cantilever suitable for SSRM/lithography
▪ Backside reflex coating (Al)
▪ Electrically conductive diamond-coated tip
▪ Mounted type on Conductive AFM (C-AFM) Chip Carrier
Request for Quote
Property Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 22.5 - 37.5
Length /µm 125 115 - 135
Force Constant /(N/m) 80 23 - 225
Resonance Frequency /kHz 400 225 - 610
PPP-EFM 2.8 75 Nanosensors ▪ Probe for SCM/DC-EFM/PFM
▪ Backside reflective coating (Cr-PtIr5)
▪ Conductive tip for electrical application, coated with Cr-PrIr5
▪ Typical tip length: 10 - 15 μm
▪ Typical tip radius: <25 nm
▪ Mounted type on ceramic chip carrier
▪ Unmounted type required for clip type probehand
Request Quote

The new PointProbe® Plus (PPP) combines the well-known features of the proven PointProbe® series such as high application versatility and compatibility with most commercial SPMs with a more reproducible tip radius as well as a more defined tip shape. The minimized variation in tip shape provides more reproducible images.

The PPP-EFM probe is offered for electrostatic force microscopy. An overall metallic coating (PtIr5) on both sides of the cantilever increasing the electrical conductivity of the tip. The force constant of this type is specially tailored for the electrostatic force microscopy yielding very high force sensitivity while simultaneously enabling tapping mode and lift mode operation.

Property Nominal Value Specified Range
Thickness /µm 3 2.0 - 4.0
Mean Width /µm 28 20 - 35
Length /µm 225 215 - 235
Force Constant /(N/m) 2.8 0.5 - 9.5
Resonance Frequency /kHz 75 45 - 115
25Pt300B 18 14 Rocky Mountain Nanotechnology ▪ Contact cantilever for conductive AFM(C-AFM)/SCM
▪ Solid platinum tip
▪ Recommended for high voltage/current application above ±10 V or 1 µA
▪ Mounted type on ceramic chip carrier
▪ Unmounted type required for clip type chip carrier
Request Quote

The solid platinum probe, whose tip radius is smaller than 20nm, shows better performance than a typical metal-coated probes.

Cantilever Data Nominal Value Specified Range
Tip shank length /µm 80 ± 25%
Cantilever length /µm 300 ± 15%
Cantilever width /µm 110 ± 15%
Spring constant /(N/m) 18 ± 40%
Frequency /kHz 20 ± 30%
Tip radius /nm < 20  
CDT-CONTR 0.5 20 Nanosensors ▪ Contact cantilever for conductive AFM
▪ Backside reflex coating (Al)
▪ Electrically conductive diamond-coated tip
▪ Mounted type on Conductive AFM (C-AFM) Chip Carrier
Request for Quote

NANOSENSORS™ CDT-CONTR probes are designed for contact mode (repulsive mode) SPM imaging. For applications that require a wear resistant and an electrically conductive tip we recommend this type. Some applications are Tunneling AFM and Scanning Capacitance Microscopy (SCM). The CDT Diamond Coating is highly doped and the total resistance measured in contact to a platinium surface is < 10 kOhm.

Property Nominal Value Specified Range
Thickness /µm 2 1.0 - 3.0
Mean Width /µm 50 42.5 - 57.5
Length /µm 450 440 - 460
Force Constant /(N/m) 0.5 0.1 - 1.7
Resonance Frequency /kHz 20 11 - 29
PPP-CONTSCPT 0.2 25 Nanosensors ▪ Cantilever for DC-EFM/PFM/C-AFM
▪ Backside reflective coating (Cr-PtIr5)
▪ Conductive tip for electrical application, coated with Cr-PtIr5
▪ Mounted type on Conductive AFM (C-AFM) Chip Carrier
Request for Quote

The NANOSENSORS™ PPP-CONTSCPt is an alternative cantilever type for contact mode applications. The length of cantilever is reduced with respect to the preferred contact mode type enabling easier exchange with non-contact mode probes for some AFM instruments. Additionally, this probe type allows the application for lateral or friction force mode.

Property Nominal Value Specified Range
Thickness /µm 1 0.1 - 2.0
Mean Width /µm 48 40 - 55
Length /µm 225 215 - 235
Force Constant /(N/m) 0.2 0.01 - 1.87
Resonance Frequency /kHz 25 1 - 57
AD-2.8-AS 2.8 65 ▪ Contact cantilever for conductive AFM (C-AFM)
▪ Single cyrstal electrically conductive diamond coated tip
▪ Typical tip length: ~ 300 nm
▪ Typical tip radius: ~10 nm
▪ Mounted type on teflon-coated chip carrier
Request for Quote
AD-40-AS 40 180 ▪ Contact cantilever for conductive AFM (C-AFM)
▪ Single cyrstal electrically conductive diamond coated tip
▪ Typical tip length: ~ 300 nm
▪ Typical tip radius: ~10 nm
▪ Mounted type on teflon-coated chip carrier
Request for Quote
AD-2.8-SS 2.8 65 ▪ Contact cantilever for conductive AFM (C-AFM)
▪ Single cyrstal electrically conductive diamond coated tip
▪ Typical tip length: ~ 300 nm
▪ Typical tip radius: ~10 nm
▪ Mounted type on teflon-coated chip carrier
Request for Quote
AD-40-SS 40 180 ▪ Contact cantilever for conductive AFM (C-AFM)
▪ Single cyrstal electrically conductive diamond coated tip
▪ Typical tip length: ~ 300 nm
▪ Typical tip radius:
▪ Mounted type on teflon-coated chip carrier
Request for Quote
25Pt300B 18 20 Rocky Mountain Nanotechnology ▪ Contact cantilever for conductive AFM(C-AFM)/SCM
▪ Solid platinum tip
▪ Recommended for high voltage/current application above ±10 V or 1 µA
▪ Mounted type on Conductive AFM (C-AFM) Chip Carrier
Request for Quote
Cantilever Data Nominal Value Specified Range
Tip shank length /µm 80 ± 25%
Cantilever length /µm 300 ± 15%
Cantilever width /µm 110 ± 15%
Spring constant /(N/m) 18 ± 40%
Frequency /kHz 20 ± 30%
Tip radius /nm < 20  
NSC18/Cr-Au 2.8 75 Mikromasch ▪ Contact cantilever for conductive AFM(C-AFM)
▪ Backside reflective coating (Au)
▪ Conductive tip for electrical application, coated with Cr-Au
▪ Mounted type on Conductive AFM (C-AFM) Chip Carrier
Request for Quote
Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
60 75 90 1.2 2.8 5.5 225 27.5 3.0
SD-R30-NCH 42 330 Nanosensors ▪ Probe for nanomechanical modes
(F-d/PinPoint) on stiff samples

▪ Typical tip length:125 µm
▪ Typical tip radius: 30nm ±10nm
▪ Tip shape: Parabolic tip shape
▪ Tip size and shape make it suitable for nanomechanical quantitative measurements
Request for Quote
SD-R30-FM 2.8 75 Nanosensors ▪ Probe for nanomechanical modes
(F-d/PinPoint) on soft samples

▪ Typical tip length:125 µm
▪ Typical tip radius: 30nm ±10nm
▪ Tip shape: Parabolic tip shape
▪ Tip size and shape make it suitable for nanomechanical quantitative measurements
Request for Quote
SD-R30-CONT 0.2 13 Nanosensors ▪ Probe for nanomechanical modes
(F-d/PinPoint) on soft samples

▪ Typical tip length:450 µm
▪ Typical tip radius: 30nm ±10nm
▪ Tip shape: Parabolic tip shape
▪ Tip size and shape make it suitable for nanomechanical quantitative measurements
Request for Quote
NC-LC 100 450 ▪ Cantilever with high spring constant for nanomechnical measurement and Conductive AFM
▪ Backside reflex coating (Cr-Au)
▪ Tip shape: cone
▪ Single crystal diamond tip
▪ Typical tip length: ~175 nm
▪ Typical tip radius: ~20 nm
Request for Quote
FM-LC 8 100   Request for Quote
PPP-FMR 2 75 Nanosensors ▪ Backside reflex coating (Al)
▪ Typical tip length: 10 - 15 μm
▪ Typical tip radius:
Request for Quote
Property Nominal Value Specified Range
Thickness /µm 3 2.0 - 4.0
Mean Width /µm 28 20 - 35
Length /µm 225 215 - 235
Force Constant /(N/m) 2 0.5 - 9.5
Resonance Frequency /kHz 75 45 - 115
DT-FMR 6.2 105 Nanosensors ▪ Backside reflex coating
▪ Diamond coated tip
▪ Typical tip length: 10 - 15 μm
▪ Typical tip radius: 100 - 200 nm
Request for Quote
Property Nominal Value Specified Range
Thickness /µm 3 2.0 - 4.0
Mean Width /µm 27.5 20 - 35
Length /µm 225 215 - 235
Force Constant /(N/m) 6.2 1.5 - 18.3
Resonance Frequency /kHz 105 65 - 155
PPP-NCSTR 7.4 160 Nanosensors ▪ Backside reflex coating (Al)
▪ Typical tip length: 10 - 15 μm
▪ Typical tip radius:
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Property Nominal Value Specified Range
Thickness /µm 2.8 1.8 - 3.8
Mean Width /µm 27 19.5 - 34.5
Length /µm 150 140 - 160
Force Constant /(N/m) 7.4 1.2 - 29
Resonance Frequency /kHz 160 75 - 265
NSC36/Al BS 1
2
0.6
90
130
65
Mikromasch ▪ Contact cantilever
▪ Backside reflective coating (Al)
▪ Typical tip length: 12 - 18 μm
▪ Typical tip radius: ▪ 3 cantilevers on a chip
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NSC36,
Cantilevers
Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
A 30 90 160 0.1 1 4.6 110 32.5 1.0
B 45 130 240 0.2 2 9 90 32.5 1.0
C 25 65 115 0.06 0.6 2.7 130 32.5 1.0
NSC14/HARD/AI BS 5 160 Mikromasch ▪ Backside reflective coating (Al)
▪ Hard Diamond-Like-Carbon coated tip
▪ Typical tip length: 12 - 18 μm
▪ Typical tip radius:
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Cantilever Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
14 Series 110 160 220 1.8 5 13 125 25 2.1
PPP-CONTSCPt 0.2 25 Nanosensors ▪ Cantilever for DC-EFM/PFM/C-AFM
▪ Backside reflective coating (Cr-PtIr5)
▪ Conductive tip for electrical application, coated with Cr-PtIr5
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Property Nominal Value Specified Range
Thickness /µm 1 0.1 - 2.0
Mean Width /µm 48 40 - 55
Length /µm 225 215 - 235
Force Constant /(N/m) 0.2 0.01 - 1.87
Resonance Frequency /kHz 25 1 - 57
NSC36/Cr-Au 1
2
0.6
90
130
65
 Mikromasch ▪ Cantilever for EFM/KPFM and bio application
▪ Backside reflective coating (Au)
▪ Conductive tip for electrical application, coated with Cr-Au
▪ 3 cantilevers on a chip
 Request for Quote
NSC36,
Cantilevers
Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
A 30 90 160 0.1 1 4.6 110 32.5 1.0
B 45 130 240 0.2 2 9 90 32.5 1.0
C 25 65 115 0.06 0.6 2.7 130 32.5 1.0
NSC14/Cr-Au 5 160 Mikromasch ▪ Cantilever for EFM/KPFM
▪ Backside reflective coating (Au)
▪ Conductive tip for electrical application, coated with Cr-Au
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Cantilever Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
14 Series 110 160 220 1.8 5 13 125 25 2.1
PPP-NCSTAu 7.4 160 Nanosensors ▪ Cantilever for EFM/KPFM
▪ Backside reflective coating (Au)
▪ Conductive tip for electrical application, coated with Au
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Property Nominal Value Specified Range
Thickness /µm 2.8 1.8 - 3.8
Mean Width /µm 27 19.5 - 34.5
Length /µm 150 140 - 160
Force Constant /(N/m) 7.4 1.2 - 29
Resonance Frequency /kHz 160 75 - 265
PPP-EFM 2.8 75 Nanosensors ▪ Cantilever for DC-EFM/PFM/SCM
▪ Backside reflective coating (Cr-PtIr5)
▪ Conductive tip for electrical application, coated with Cr-PrIr5
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The PPP-EFM probe is offered for electrostatic force microscopy. An overall metallic coating (PtIr5) on both sides of the cantilever increasing the electrical conductivity of the tip. The force constant of this type is specially tailored for the electrostatic force microscopy yielding very high force sensitivity while simultaneously enabling tapping mode and lift mode operation.

Property Nominal Value Specified Range
Thickness /µm 3 2.0 - 4.0
Mean Width /µm 28 20 - 35
Length /µm 225 215 - 235
Force Constant /(N/m) 2.8 0.5 - 9.5
Resonance Frequency /kHz 75 45 - 115
NSC36/Pt 1
2
0.6
90
130
65
MikroMasch ▪ Cantilever for DC-EFM/PFM
▪ Backside reflective coating (Pt)
▪ Conductive tip for electrical application, coated with Pt
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NSC36,
Cantilevers
Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
Cantilever A 30 90 160 0.1 1 4.6 110 32.5 1.0
Cantilever B 45 130 240 0.2 2 9 90 32.5 1.0
Cantilever C 25 65 115 0.06 0.6 2.7 130 32.5 1.0
ElectriMulti75-G 3 75  Budget Sensors ▪ Cantilever for electrical modes(EFM/KPFM/DC-EFM/PFM)
▪ Backside reflective coating (Cr-Pt)
▪ Conductive tip for electrical application, coated with Cr-Pt
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Rotated Monolithic silicon probe
Symmetric tip shape
Chipsize 3.4 x 1.6 x 0.3 mm

  value range
Resonant Frequency 75 kHz ± 15 kHz
Force Constant 3 N/m 1 N/m to 7 N/m
Length 225 µm ± 10 µm
Mean Width 28 µm ± 5 µm
Thickness 3 µm ± 1 µm
Tip Height 17 µm ± 2 µm
Tip Set back 15 µm ± 5 µm
Tip Radius < 25 nm
Coating Conductive Cr/Pt on both sides
Half Cone Angle 20°-25° along cantilever axis
25°-30° from side
10° at the apex
Contact Resistance 300 Ohms on platinum thin film surface
SPARK 70 Pt 2 70 ▪ Probe for KPFM/PFM
▪ Backside reflective coating (Ti-Pt)
▪ Conductive tip for electrical application, coated with Ti-Pt (5 nm Ti, 40 nm Pt)
▪ Typical tip length: 5 - 8 μm
▪ Typical tip radius: ~18 nm
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SPARK 150 Pt 18 150 ▪ Probe for KPFM/PFM
▪ Backside reflective coating (Ti-Pt)
▪ Conductive tip for electrical application, coated with Ti-Pt (5 nm Ti, 40 nm Pt)
▪ Typical tip length: 5 - 8 μm
▪ Typical tip radius: ~18 nm
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SPARK 350 Pt 42 350 ▪ Probe for KPFM/PFM
▪ Backside reflective coating (Ti-Pt)
▪ Conductive tip for electrical application, coated with Ti-Pt (5 nm Ti, 40 nm Pt)
▪ Typical tip length: 5 - 8 μm
▪ Typical tip radius: ~18 nm
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Glass NanoPipette       ▪ Pipette for SICM
▪ Borosilicate glass pipette
▪ Pipette opening diameter: d = ~100nm
▪ Minimum order quantities are 10ea
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Pt-Ir       ▪ 0.25 mm diameter Pt-Ir wire
▪ Sharpened tip end for STM
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PPP-MFMR 2.8 75 Nanosensors ▪ Cantilever for MFM
▪ Backside reflex coating (Al)
▪ Hard magnetic coating on the tip
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Property Nominal Value Specified Range
Thickness /µm 3 2.0 - 4.0
Mean Width /µm 28 20 - 35
Length /µm 225 215 - 235
Force Constant /(N/m) 2.8 0.5 - 9.5
Resonance Frequency /kHz 75 45 - 115
PPP-LC-MFMR 2.8 75 Nanosensors ▪ Cantilever for MFM
▪ Backside reflex coating (Al)
▪ Soft magnetic coating on the tip
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Property Nominal Value Specified Range
Thickness /µm 3 2.0 - 4.0
Mean Width /µm 28 20 - 35
Length /µm 225 215 - 235
Force Constant /(N/m) 2.8 0.5 - 9.5
Resonance Frequency /kHz 75 45 - 115
PPP-LM-MFMR 2.8 75 Nanosensors ▪ Cantilever for MFM
▪ Backside reflex coating (Al)
▪ Hard magnetic coating on the tip with reduced magnetic moment compared to PPP-MFMR
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Property Nominal Value Specified Range
Thickness /µm 3 2.0 - 4.0
Mean Width /µm 28 20 - 35
Length /µm 225 215 - 235
Force Constant /(N/m) 2.8 0.5 - 9.5
Resonance Frequency /kHz 75 45 - 115
SSS-MFMR 2.8 75 Nanosensors ▪ Cantilever for high resolution MFM
▪ Backside reflex coating (Al)
▪ Hard magnetic coating on the tip with reduced magnetic moment compared to PPP-MFMR
▪ guaranteed tip radius of curvature < 15 nm
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Property Nominal Value Specified Range
Thickness /µm 3 2.0 - 4.0
Mean Width /µm 28 20 - 35
Length /µm 225 215 - 235
Force Constant /(N/m) 2.8 0.5 - 9.5
Resonance Frequency /kHz 75 45 - 115
NSC18/Co-Cr/Al BS 2.8 75 MikroMasch ▪ Cantilever for MFM
▪ Backside reflective coating (Al)
▪ Tip is coated with Co-Cr
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Cantilever Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
18 Series 60 75 90 1.2 2.8 5.5 225 27.5 3.0
NanoThermal-10 0.25   Kelvin Nanotechnology ▪ Cantilever with thermo-coupled tip for SThM
▪ Tip made of NiCr and Pd
▪ Mounted type only
▪ Package of 10 (EA)
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Probe base 2mm x 3mm
Cantilever (Silicon Nitride) 150μm x 60μm x 0.4um
Resistor metal 5nm NiCr + 40nm Pd
Track and pad metal 5nm NiCr + 140nm Au
Resistance 250-400Ω (Typ 320Ω)
Tip Radius <= 100nm
Tip height ~ 10 um
Tip Radius <= 100nm
Current max 2.2 ~ 2.4 mA dc
(recommended)
Spring constant 0.25 N/m (modelled)
Scanning Mode Contact
Sensitivity approx 1Ω / degC
Series resistors 2 x 100 Ω (± 25 Ω)
NanoThermal-5 0.25   Kelvin Nanotechnology ▪ Cantilever with thermo-coupled tip for SThM
▪ Tip made of NiCr and Pd
▪ Mounted type only
▪ Package of 5 (EA)
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Probe base 2mm x 3mm
Cantilever (Silicon Nitride) 150μm x 60μm x 0.4um
Resistor metal 5nm NiCr + 40nm Pd
Track and pad metal 5nm NiCr + 140nm Au
Resistance 250-400Ω (Typ 320Ω)
Tip Radius <= 100nm
Tip height ~ 10 um
Tip Radius <= 100nm
Current max 2.2 ~ 2.4 mA dc
(recommended)
Spring constant 0.25 N/m (modelled)
Scanning Mode Contact
Sensitivity approx 1Ω / degC
Series resistors 2 x 100 Ω (± 25 Ω)
DT-NCHR 80 400 Nanosensors ▪ Cantilever with high force constant for Lithography, Backside reflex coating
▪ Diamond-coated tip
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NANOSENSORS™ DT-NCHR probes are designed for non-contact mode or tapping mode AFM (also known as: attractive or dynamic mode). This probe type combines high operation stability with outstanding sensitivity and fast scanning ability.
For applications that require hard contact between tip and sample this SPM probe offers a real diamond tip-side coating. This coating features extremely high wear resistance due to the unsurpassed hardness of diamond. The typical macroscopic tip radius of curvature lies is between 100 and 200 nm. Nanoroughnesses in the 10 nm regime improve the resolution on flat surfaces.

Property Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 22.5 - 37.5
Length /µm 125 115 - 135
Force Constant /(N/m) 80 23 - 225
Resonance Frequency /kHz 400 225 - 610
ElectriMulti75-G 3 75 Budget Sensors ▪ Cantilever for electrical modes(EFM/KPFM/DC-EFM/PFM)
▪ Backside reflective coating (Cr-Pt)
▪ Conductive tip for electrical application, coated with Cr-Pt
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Rotated Monolithic silicon probe
Symmetric tip shape
Chipsize 3.4 x 1.6 x 0.3 mm

  value range
Resonant Frequency 75 kHz ± 15 kHz
Force Constant 3 N/m 1 N/m to 7 N/m
Length 225 µm ± 10 µm
Mean Width 28 µm ± 5 µm
Thickness 3 µm ± 1 µm
Tip Height 17 µm ± 2 µm
Tip Set back 15 µm ± 5 µm
Tip Radius < 25 nm
Coating Conductive Cr/Pt on both sides
Half Cone Angle 20°-25° along cantilever axis
25°-30° from side
10° at the apex
Contact Resistance 300 Ohms on platinum thin film surface
CDT-CONTR 0.5 20 Nanosensors ▪ Contact contact cantilever for Lithography based on oxidation, Backside reflex coating
▪ Electrically conductive diamond-coated tip, REQUIRES Teflon-coated chip carrier
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NANOSENSORS™ CDT-CONTR probes are designed for contact mode (repulsive mode) SPM imaging. For applications that require a wear resistant and an electrically conductive tip we recommend this type. Some applications are Tunneling AFM and Scanning Capacitance Microscopy (SCM). The CDT Diamond Coating is highly doped and the total resistance measured in contact to a platinium surface is < 10 kOhm.
Property Nominal Value Specified Range
Thickness /µm 2 1.0 - 3.0
Mean Width /µm 50 42.5 - 57.5
Length /µm 450 440 - 460
Force Constant /(N/m) 0.5 0.1 - 1.7
Resonance Frequency /kHz 20 11 - 29
CDT-NCHR 80 400 Nanosensors ▪ Cantilever with high resonant frequency for Lithography, Backside reflex coating
▪ Electrically conductive diamond-coated tip, REQUIRES Teflon-coated chip carrier
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NANOSENSORS™ CDT-NCHR probes are designed for non-contact mode or tapping mode AFM (also known as: attractive or dynamic mode). This sensor type combines high operation stability with outstanding sensitivity and fast scanning ability. For applications that require a wear resistant and an electrically conductive tip we recommend this type. Some applications are Tunneling AFM and Scanning Capacitance Microscopy (SCM). The CDT Diamond Coating is highly doped and the total resistance measured in contact to a platinium surface is < 10 kOhm. The typical macroscopic tip radius of curvature is between 100 and 200 nm. Nanoroughness in the 10 nm regime improves the resolution on flat surfaces.

Property Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 22.5 - 37.5
Length /µm 125 115 - 135
Force Constant /(N/m) 80 23 - 225
Resonance Frequency /kHz 400 225 - 610
25Pt300B 18 14 - ▪ Contact cantilever made of solid platinum
▪ Recommended for high voltage/current application above ±10 V or 1 µA
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The solid platinum probe, whose tip radius is smaller than 20nm, shows better performance than a typical metal-coated probes.

Technical Data Nominal Value Specified Range
Width (µm) 100 90 - 110
Length(µm) 300 250 – 350
Force Constant(N/m) 18 10.8 -25.2
Resonance Frequency (kHz) 14 9.8 – 18.2
NM-RC-SEM 350 750 ▪ Cantilever with high force constant for Nanoindentation
▪ Tip shape: cone
▪ Single crystal diamond tip
▪ Typical tip length: ~500 nm
▪ Typical tip radius: ~10 nm
▪ Mounted type only
▪ For exact values of tip height & radius and half-cone angle, SEM image data is provided
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BL-AC40TS 0.09 110 Olympus ▪ Cantilever for imaging soft samples
▪ Backside reflective coating (Au)
BioLever Mini
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Cantilever
Resonance Frequency [kHz] 110
(75 - 145)
25 in water
(17 - 45)
Spring Constant [N/m] 0.09
(0.02 - 0.14)
Shape Rectangular
Length × Width × Thickness [µm] 38×16×0.2
Probe
Shape Tetrahedral
Length [µm] 7
Effective probe length [µm] 3.5
Tip radius [nm] 8
PNP-DB 0.48
0.06
67
17
Nanoworld ▪ Contact cantilever made of Silicon Nitride
▪ Backside reflex coating (Au)
▪ 2 cantilevers on a chip
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The Pyrex-Nitride probes have silicon nitride cantilevers witd very low force constants and integrated oxide sharpened, pyramidal tips witd a height of 3.5 µm. The tip is located 4 µm behind tde free end of tde cantilever. This probe series features a support chip tdat is made of Pyrex. Two chip versions are available: The DB series witd rectangular / diving board cantilevers and tde TR series having triangular cantilevers. Botd sides of tde chip have identical cantilevers.

Cantilever Data Cant. 1 Cant. 2
Shape Diving Board
Resonance Frequency 67 kHz 17 kHz
Force Constant 0.48 N/m 0.06 N/m
Lengtd 100 µm 200 µm
Mean Widtd 40 µm 40 µm
Thickness 0.5 µm 0.5 µm
PNP-TR 0.32
0.08
67
17
Nanoworld ▪ Contact cantilever made of Silicon Nitride
▪ Backside reflex coating (Au)
▪ 2 triangular cantilevers on a chip
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The Pyrex-Nitride probes have silicon nitride cantilevers witd very low force constants and integrated oxide sharpened, pyramidal tips witd a height of 3.5 µm. The tip is located 4 µm behind tde free end of tde cantilever. The probe series features a support chip tdat is made of Pyrex. The TR series features two different triangular cantilevers. Botd sides of tde chip have identical cantilevers.

Cantilever Data Cant. 1 Cant. 2
Shape Triangular
Resonance Frequency 67 kHz 17 kHz
Force Constant 0.32 N/m 0.08 N/m
Lengtd 100 µm 200µm
Mean Widtd 13.5 µm 28 µm
Thickness 0.5 µm 0.5 µm
DNP-S 0.175 
0.06 
0.12
0.03
50
16
40
12
Bruker ▪ Contact cantilever for imaging biological samples
▪ 4 triangular cantilevers on a chip
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Premium Contact Mode or Fluid TappingMode imaging and force measurement probes, sharpened for higher-resolution. Unmounted for BioScope / Dimension AFMs.

Shape Resonant Freq.kHz Spring Const.N/m Lengtdµm Widtdµm
Nom. Min. Max. Nom. Min. Max. Nom. Min. Max. Nom. Min. Max.
A Triangular 65 50 80 0.35 0.175 0.7 120 125 115 25 20 30
B Triangular 23 16 28 0.12 0.06 0.24 205 200 210 40 25 45
C Triangular 56 40 75 0.24 0.12 0.48 120 115 125 20 15 25
D Triangular 18 12 24 0.06 0.03 0.12 205 200 210 25 20 30
NSC36/Cr-Au 1
2
0.6
90
130
65
 Mikromasch ▪ Cantilever for EFM/KPFM and bio application
▪ Backside reflective coating (Au)
▪ Conductive tip for electrical application, coated with Cr-Au
▪ 3 cantilevers on a chip
 Request for Quote
NSC36,
Cantilevers
Resonance Frequency, kHz Force Constant, N/m Lengtd
l ± 5,
µm
Widtd
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
A 30 90 160 0.1 1 4.6 110 32.5 1.0
B 45 130 240 0.2 2 9 90 32.5 1.0
C 25 65 115 0.06 0.6 2.7 130 32.5 1.0

 

QP-BioAC 0.3
0.1
0.06
90
50
30
 Nanosensors ▪ Non-Contact cantilever with high resonant frequency
▪ Backside reflective coating (AI)
▪ 3 triangular cantilevers on a chip
 Request for Quote

 

R-NCLR 8M for 3DM 48 190 Nanosensors ▪ Mounted R-NCLR cantilever for 3DM ATX
▪ Backside reflex coating
▪ Compatible with 3DM ATX
▪ Cassette of 8 (EA)
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Technical Data Nominal Value Specified Range
Thickness /µm 7 6.0 - 8.0
Mean Width /µm 38 30 - 45
Length /µm 225 215 - 235
Force Constant /(N/m) 48 21 - 98
Resonance Frequency /kHz 190 146 - 236
NCHR 8M for 3DM 42 330 Nanosensors ▪ Mounted PPP-NCHR cantilever for 3DM ATX
▪ Backside reflex coating
▪ Compatible with 3DM ATX
▪ Cassette of 8 (EA)
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Technical Data Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 22.5 - 37.5
Length /µm 125 115 - 135
Force Constant /(N/m) 42 10 - 130
Resonance Frequency /kHz 330 204 - 497
NCHR 12M for ATX 42 330 Nanosensors ▪ Mounted PPP-NCHR cantilever for industrial systems with ATX
▪ Backside reflex coating
▪ Compatible with standard ATX
▪ Cassette of 12 (EA)
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Technical Data Nominal Value Specified Range
Thickness /µm 4 3.0 - 5.0
Mean Width /µm 30 22.5 - 37.5
Length /µm 125 115 - 135
Force Constant /(N/m) 42 10 - 130
Resonance Frequency /kHz 330 204 - 497
DT-CONTR 2.8 75 Nanosensors ▪ Contact cantilever for AFP
▪ Backside reflex coating
▪ Diamond-coated tip
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Property Nominal Value Specified Range
Thickness /µm 2 1.0 - 3.0
Mean Width /µm 50 42.5 - 57.5
Length /µm 450 440 - 460
Force Constant /(N/m) 0.5 0.1 - 1.7
Resonance Frequency /kHz 20 11 - 29
OMCL-AC240TS 2 70 Olympus ▪ Non-contact cantilever with high resonant frequency
▪ Backside reflective coating (Al)
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Cantilever
Resonance Frequency [kHz] 70
(50 - 90)
Spring Constant [N/m] 2
(0.6 - 3.5)
Shape Rectangular
Length × Width × Thickness [µm] 240×40×2.3

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Park Probe Store