MLCT-SPH-1UM
Geometry
A A-frameFrequency (KHz)
Nom: 18.0
Min: 10.5
Max: 25.5
Length (µm)
Nom: 175
Min: 170
Max: 180
Spring Const (N/m)
Nom: 0.080
Min: 0.020
Max: 0.140
Width (µm)
Nom: 22
Min: 17
Max: 27
Geometry
B Rectangular
Frequency (KHz)
Nom: 12.0
Min: 7.0
Max: 17.0
Length (µm)
Nom: 210
Min: 205
Max: 215
Spring Const (N/m)
Nom: 0.020
Min: 0.004
Max: 0.040
Width (µm)
Nom: 20
Min: 15
Max: 25
Geometry
C A-frame
Frequency (KHz)
Nom: 6.0
Min: 3.0
Max: 9.0
Length (µm)
Nom: 310
Min: 305
Max: 315
Spring Const (N/m)
Nom: 0.010
Min: 0.002
Max: 0.020
Width (µm)
Nom: 20
Min: 15
Max: 25
Geometry
D A-frame
Frequency (KHz)
Nom: 12.5
Min: 7.5
Max: 17.5
Length (µm)
Nom: 225
Min: 220
Max: 230
Spring Const (N/m)
Nom: 0.035
Min: 0.007
Max: 0.060
Width (µm)
Nom: 20
Min: 15
Max: 25
Geometry
E A-frame
Frequency (KHz)
Nom: 30.0
Min: 18.0
Max: 42.0
Length (µm)
Nom: 140
Min: 135
Max: 145
Spring Const (N/m)
Nom: 0.115
Min: 0.030
Max: 0.200
Width (µm)
Nom: 18
Min: 13
Max: 23
Geometry
F A-frame
Frequency (KHz)
Nom: 85.0
Min: 50.0
Max: 120.0
Length (µm)
Nom: 85
Min: 80
Max: 90
Spring Const (N/m)
Nom: 0.700
Min: 0.200
Max: 1.200
Width (µm)
Nom: 18
Min: 13
Max: 23
Price: $771.75 (USD)
Sold in packs of 5
Questions? Free, Online Consulting
Overview
A novel probe for BioAFM to address life science microrheology applications and quantitative nanomechanical mapping of living cells, tissues, hydrogels and more.
Bruker has introduced a sphere tip version of our popular MLCT probes. A ~20um tall, cylindrical tip shank with a large 1 um spherical tip.
This probe replaces the need for construction of colloidal probes using tipless cantilevers beads and glue!
The microcantilever array provides a range of spring constants - each of which is individually Laser Doppler Vibrometer calibrated for the best accuracy! - so you can match to that which is best suited to your sample.
Download the MLCT probe datasheet for more information.