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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's 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. 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.
MLCT-BIO-DC is a low thermal sensitivity version of the probe. 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.
Download the datasheet for more information.
Cantilever Specification
All cantilevers have less than +/- 2 deg bend.
Geometry: Rectangular & Triangular
Cantilevers Number: 6
Cantilever Thickness (Nom): 0.55µm
Cantilever Thickness (RNG): 0.5 - 0.6µm
Back Side Coating: Drift Compensated Reflective Gold