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MLCT-BIO-DC

Geometry
A TriangularTip Radius (nm)
Nom: 20
Max: 60
Frequency (KHz)
Nom: 22
Min: 15
Max: 30
Length (µm)
Nom: 175
Min: 170
Max: 180
Spring Const (N/m)
Nom: 0.07
Min: 0.025
Max: 0.14
Width (µm)
Nom: 22
Min: 17
Max: 27
Geometry
B Rectangular
Tip Radius (nm)
Nom: 20
Max: 60
Frequency (KHz)
Nom: 15
Min: 10
Max: 20
Length (µm)
Nom: 210
Min: 205
Max: 215
Spring Const (N/m)
Nom: 0.02
Min: 0.005
Max: 0.04
Width (µm)
Nom: 20
Min: 15
Max: 25
Geometry
C Triangular
Tip Radius (nm)
Nom: 20
Max: 60
Frequency (KHz)
Nom: 7
Min: 4
Max: 10
Length (µm)
Nom: 310
Min: 305
Max: 315
Spring Const (N/m)
Nom: 0.01
Min: 0.005
Max: 0.02
Width (µm)
Nom: 20
Min: 15
Max: 25
Geometry
D Triangular
Tip Radius (nm)
Nom: 20
Max: 60
Frequency (KHz)
Nom: 15
Min: 10
Max: 20
Length (µm)
Nom: 225
Min: 220
Max: 230
Spring Const (N/m)
Nom: 0.03
Min: 0.015
Max: 0.06
Width (µm)
Nom: 20
Min: 15
Max: 25
Geometry
E Triangular
Tip Radius (nm)
Nom: 20
Max: 60
Frequency (KHz)
Nom: 38
Min: 26
Max: 50
Length (µm)
Nom: 140
Min: 135
Max: 145
Spring Const (N/m)
Nom: 0.1
Min: 0.05
Max: 0.2
Width (µm)
Nom: 18
Min: 13
Max: 23
Geometry
F Triangular
Tip Radius (nm)
Nom: 20
Max: 60
Frequency (KHz)
Nom: 125
Min: 90
Max: 160
Length (µm)
Nom: 85
Min: 80
Max: 90
Spring Const (N/m)
Nom: 0.6
Min: 0.3
Max: 1.2
Width (µm)
Nom: 18
Min: 13
Max: 23
Order a free MLCT-BIO-DC sample
Price: $605.00 (USD)
Sold in packs of 10
Questions? Free, Online Consulting
Overview
Bruker AFM Probes has introduced an improved version of its popular MLCT AFM probes. Bruker's new line of MLCT-BIO high-quality, performance probes set the industry standard for imaging in fluid and force spectroscopy of biological samples. MLCT-BIO incorporates a larger tip radius and apex angle for consistent cell imaging, and has a proprietary design to improve the success rate of force pulling experiments.
MLCT-BIO-DC is a low thermal sensitivity version of the probe that is available for heated applications that can cause probe bending or drift. These drift-compensated probes have a small laser-reflection enhancing gold pad, constrained to the distal end of the cantilever, to significantly reduce probe bending (patent pending).
Get exceptional pulling force curve data sing the MLCT-Bio probes on the new BioScope Resolve!

Click for larger image
MLCT-BIO-DC is a low thermal sensitivity version of the probe that is available for heated applications that can cause probe bending or drift. These drift-compensated probes have a small laser-reflection enhancing gold pad, constrained to the distal end of the cantilever, to significantly reduce probe bending (patent pending).
Get exceptional pulling force curve data sing the MLCT-Bio probes on the new BioScope Resolve!

Click for larger image
Bruker's BioScope ResolveTM BioAFM features the highest resolution atomic force microscopy imaging and most complete cell mechanics capabilities available for use with an inverted optical microscope.
Download the datasheet for more information.