High-Precision EEG for Event-Related Potential (ERP) Research
Event-related potentials (ERPs) provide precise, time-locked insights into how the brain processes sensory, cognitive, and emotional stimuli. From measuring the P300 for attention to the N400 for memory access, capturing high-fidelity evoked potentials requires sub-millisecond precision.
This page provides an overview of how Mentalab’s Explore Pro high-precision EEG systems support accurate, time-locked ERP measurements across diverse research settings. Whether you are studying Mismatch Negativity (MMN) in the lab or Error-Related Negativity (ERN) in naturalistic environments, our hardware ensures your data is free from synchronization drift.
Our Solution
- Jitter-Free Timing: High-precision wired & wireless event marking (< 1 ms) for perfect stimulus-response alignment.
- Research-Grade Signal: Wireless, high-resolution EEG recording with up to 32 channels and sampling rates up to 8 kHz, essential for capturing fast early ERP components.
- Ecological Validity: Lightweight, wearable EEG design that supports ERP studies in real-world, naturalistic settings.
- Broad Interoperability: Seamless integration with leading stimulus delivery software (E-Prime, Presentation, PsychoPy, Psychtoolbox) and ERP analysis pipelines (EEGLAB, BESA, MNE-Python).
- Social ERPs: Hypersync for multi-participant synchronization, enabling the study of inter-person neural dynamics and collective cognitive processing.
Choose our Mentalab Explore Pro mobile EEG system combined with our wireless synchronisation solution, Mentalab Hypersync
Event markers are synced wirelessly with sub-ms precision
Resources
Publications
A Comparison of Approaches for Motion Artifact Removal from Wireless Mobile EEG During Overground Running
Ledwidge, P. S., McPherson, C. N., Faulkenberg, L., Morgan, A., & Baylis, G. C. (2025). A Comparison of Approaches for Motion Artifact Removal from Wireless Mobile EEG During Overground Running. Sensors, 25(15), 4810.
Neural evidence for attentional resource allocation to postural control using brain-body imaging
Fakorede, S., Alkhameys, F., Liao, K., Martin, L., & Devos, H. (2025). Neural evidence for attentional resource allocation to postural control using brain-body imaging. Behavioural Brain Research, 494, 115716.
Effect of the Use of Electronic Media on the Cognitive Intelligence, Attention, and Academic Trajectory of Medical Students
Hernández-Chávez, A., Hamui-Sutton, L., Muñoz-Comonfort, A., & Sampieri-Cabrera, R. (2025). Effect of the Use of Electronic Media on the Cognitive Intelligence, Attention, and Academic Trajectory of Medical Students. Cureus, 17(2).