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neuropixels probes cambridge neurotech silicon neural probes comparison
Minimal damage

Multi-Target, Multi-Angle

Record from where you want
Maintain compact-implants whilst enabling independent probe trajectories with ultra-small probes, drives and implantable 'on-skull' digital headstages
Opto Brain

Optogenetics-Safe Padding

Zero-artefact recording

Seamless integration with optogenetic stimulation with minimal photoelectric artefacts ensuring clean single-unit recording.

Signal noise

Minimally-Invasive Padding

Less tissue damage = better data

Our probes are 63% thinner than NP2.0, up to 86% narrower, and flex more before breaking. Less damage leaves a more intact network to record from. 

Expert Support

Expert-Led Support

Rapid answers from neuroscientists
Directly draw upon our collective experience spanning 30+ person-years covering all manner of electrophysiology experiments, from start to finish.

 

"For our application combining chronic imaging and electrophysiology, 3-D chronic probe stacks mounted on nano-Drives are unparalleled... allowing high signal-to-noise, high-density recording across multiple regions. Our project would not be possible without this technology."

gyuri
Gyorgy Buzsaki
Lab head, NYU, USA
Brain Area: cortex.    Species: Mouse

 

Discuss your experiments with us now
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Here are some of the great places our probes have been used in: