MLCT-BIO

Bruker's Sharp Nitride Lever (SNL) probes are the industry standard for high-performance imaging with TappingMode in fluid.  These probes marry the sharpness of a Silicon tip with the low spring constant and high sensitivity of a Silicon Nitride cantilever, for an unprecedented level of resolution and force control.  The unique design of each SNL probe includes four cantilevers with varying degrees of force constants and resonant frequencies, providing enough versatility to cover a large majority of sample types.

The SNL cantilever layout is identical to that of the other NP products, with "A" and "B" cantilevers on one side of the probe, and "C" and "D" cantilevers on the other side of the probe.  See the cantilever orientation diagram here.  All cantilevers on the SNL probes have <2 degrees of cantilever bend, making them ideal for use on all Bruker and non-Bruker AFMs. 
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Bruker's Sharp Microlever (MSNL) probes are the industry standard for high-performance imaging with TappingMode in fluid.  These probes marry the sharpness of a Silicon tip with the low spring constant and high sensitivity of a Silicon Nitride cantilever, for an unprecedented level of high-resolution and force control on just about any sample, in any medium.  The unique design of each MSNL probe includes six cantilevers with varying degrees of force constants and resonant frequencies, providing enough versatility to cover a large majority of sample types.

The MSNL cantilever layout is identical to that of the other MLCT products, with an "A" cantilevers on one side of the probe, and "B," "C," "D," "E," and "F" cantilevers on the other side of the probe.  See the cantilever orientation diagram here. All cantilevers on the MSNL probes have <2 degrees of cantilever bend, making them ideal for use on all Bruker and non-Bruker AFMs.View...

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.

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