Custom Microwire
Electrode Arrays
Target-oriented designs, sub-millimeter precision, and research-grade performance.
Engineered for
Sub-Millimeter Precision.
BPS Microwire Arrays represent the pinnacle of neural interface engineering, designed specifically to monitor brain activities across multiple regions with sub-0.1 mm placement accuracy. Built on ultra-miniaturized PCBs, our adaptable modular design facilitates breakthrough research in Parkinson's disease, epilepsy modeling, hippocampal memory studies, and circadian rhythm analysis.
We prioritize biocompatibility and signal fidelity. By utilizing high-grade insulated Pt/Ir or tungsten microwires, our electrodes ensure long-term stability for chronic experiments while maintaining the low impedance necessary for capturing high-frequency neuronal spikes. Whether for acute exploratory sessions or longitudinal closed-loop neuromodulation, BPS arrays provide the reliable physical interface your research demands.
Engineering Workflow
Target Definition
Brain region mapping
Geometry Design
Custom array configuration
Fabrication
Microwire assembly
Assembly
PCB micro-integration
Tuning
Impedance optimization
Research Ready
Acquisition & Stim
Microwire Electrode
The insulated Pt/Ir or tungsten microwire provides superior biocompatibility, optimized tip impedance, and high-fidelity capture of neuronal spikes and local field potentials.
Precise Electrode Placement
Sub-0.1 mm geometrical precision ensures accurate targeting of specific brain regions, improving both experimental reliability and therapeutic outcomes.
Research-Focused Design
Every array can be tailored for specialized use cases including hippocampal mapping, Parkinson’s disease models, and sleep-stage investigations.
CH: 16 (REC/STI)
High-Density Integration
High-density microwire arrays assembled on ultra-miniaturized PCBs, enabling spatially targeted neural interrogation with minimal tissue displacement.
Research Applications
Parkinson’s Research
Basal ganglia recordings & stimulation.
Seizure Modeling
Epileptic spike detection & mapping.
Memory Studies
Hippocampal CA1/CA3 interrogation.
Neuromodulation
Closed-loop therapeutic validation.
Sleep Staging
Longitudinal circadian rhythm tracking.
Behavioral Neurosci
Freely moving rodent cognition.
Customization Parameters
Tailor every aspect of the array to fit your experimental target.
Material
Tungsten / Pt-Ir / Stainless Steel
Channels
Up to 16 Channels (REC/STI)
Geometry
Linear / Matrix / Tetrode
Depth
Custom mm penetration length
Impedance
100kΩ - 1MΩ target range
Interface
Omnetics / Molex / Custom PCB
Design Your Custom Electrode Today
Collaborate with our engineering team to build the perfect interface for your neuroscience research.