Supplying Custom, High-Density Brain Implants
World's biggest BCI foundry
Trusted by 100+ researchers
Smart brain implants empowered by AI
AI-powered spatiotemporal mapping streamlines neural data acquisition and interpretation
AI-powered spatiotemporal mapping streamlines neural data acquisition and interpretation
Our Thesis
The brain is vast and complex.
Our mission is to maximize the value of brain research by standardizing data from invasive BCIs through autonomous neural interfaces and AI-driven interpretation. Enabling whole brain upload.
01
Field Tested
Evaluated in rodents and NHPs in chronic recording studies of over nine months.
02
Ultra-High Density
Our UHD ECoGs can fit up to 1024 channels in rodents and up to 4096 channels in NHPs
03
Ultra-low Impedance
Our proprietary coatings enable ultra-low impedance at the electrode–interface.
7+
Layers of electronics in a flexible Polymide ECoG
100+
Chronic Recording Sessions in Rodents and NHPs
4096+
Recording and Stimulation Channels for acute studies
4x
Higher charge-injection capacity than regular coatings .
Our Thesis
The brain is vast and complex.
Our mission is to maximize the value of brain research by standardizing data from invasive BCIs through autonomous neural interfaces and AI-driven interpretation. Enabling whole brain upload.
Our products
Fitting together to empower scientists and enable them to get the most out of their experiments.
Our products
Fitting together to empower scientists and enable them to get the most out of their experiments.
Our expertise
We design and manufacture fully customized BCI systems
01
Neural Interfaces
Dense flexible implants
6+
Different types of Brain Interfaces
Our team is capable of producing a wide variety of neural interfaces (ECoGs, probes, arrays, endovascular, etc...) and can accomodate a wide spectrum of substrates (Polyimide, PDMS, Parylene C, etc...) and electrode coatings.
02
Headstages
Branded environments that work
20+
Different types of Connectors
Our team works across the full signal chain, from direct PCB-level connectivity to advanced on-implant recording and stimulation using custom chips(ASICs), as well as FPGA-based control and processing systems.
03
Software
Signal processing and analysis
3+
Computer Applications to visualize, control and analyze neural signals
Our software enables real-time visualization, control, and analysis of neural signals, with direct comparison to publicly available datasets and studies, while an integrated AI assistant helps interpret results and understand ongoing neural activity within the application.
Our expertise
We design and manufacture fully customized BCI systems
01
Neural Interfaces
Dense flexible implants
6+
Different types of Brain Interfaces
Our team is capable of producing a wide variety of neural interfaces (ECoGs, probes, arrays, endovascular, etc...) and can accomodate a wide spectrum of substrates (Polyimide, PDMS, Parylene C, etc...) and electrode coatings.
02
Headstages
Branded environments that work
20+
Different types of Connectors
Our team works across the full signal chain, from direct PCB-level connectivity to advanced on-implant recording and stimulation using custom chips(ASICs), as well as FPGA-based control and processing systems.
03
Software
Signal processing and analysis
3+
Computer Applications to visualize, control and analyze neural signals
Our software enables real-time visualization, control, and analysis of neural signals, with direct comparison to publicly available datasets and studies, while an integrated AI assistant helps interpret results and understand ongoing neural activity within the application.
Our expertise
We design and manufacture fully customized BCI systems
01
Neural Interfaces
Dense flexible implants
6+
Different types of Brain Interfaces
Our team is capable of producing a wide variety of neural interfaces (ECoGs, probes, arrays, endovascular, etc...) and can accomodate a wide spectrum of substrates (Polyimide, PDMS, Parylene C, etc...) and electrode coatings.
02
Headstages
Branded environments that work
20+
Different types of Connectors
Our team works across the full signal chain, from direct PCB-level connectivity to advanced on-implant recording and stimulation using custom chips(ASICs), as well as FPGA-based control and processing systems.
03
Software
Signal processing and analysis
3+
Computer Applications to visualize, control and analyze neural signals
Our software enables real-time visualization, control, and analysis of neural signals, with direct comparison to publicly available datasets and studies, while an integrated AI assistant helps interpret results and understand ongoing neural activity within the application.
You receive a fully integrated BCI, ready to use out of the box.
From hardware to software, every component is designed to work seamlessly together. Setup is minimal, integration is straightforward, and you can focus immediately on experimentation
Tony H
Customer Support
We’ll design the BCI around your research.
Tony H
Customer Support
We’ll design the BCI around your research.
Tony H
Customer Support
We’ll design the BCI around your research.
Answers that bring clarity
We’ve answered the most common questions to help you move forward.
Answers that bring clarity
We’ve answered the most common questions to help you move forward.
Our systems are built for academic labs, research institutes, and industry teams working in neuroscience, neurotechnology, and brain–machine interface research.
Our interfaces are soft, stretchable, and ultra-high density, designed to conform naturally to the brain while minimizing manual intervention and standardizing data across experiments.
Timelines vary based on project scope, but most projects take 2–6 weeks. We'll give you a detailed timeline before we begin.
Yes. All NeuroxAI interfaces are designed for simultaneous neural recording and targeted stimulation, supporting closed-loop and adaptive experiments.
Our standard devices start at $2000 per BCI. Our advanced custom projects start at $50,000. We offer flexible pricing. From starter packages to full-scale design systems, we tailor each quote to fit your goals.
NeuroxAI products are intended for research use and are not designed or marketed for clinical or therapeutic applications.
Our systems are built for academic labs, research institutes, and industry teams working in neuroscience, neurotechnology, and brain–machine interface research.
Our interfaces are soft, stretchable, and ultra-high density, designed to conform naturally to the brain while minimizing manual intervention and standardizing data across experiments.
Timelines vary based on project scope, but most projects take 2–6 weeks. We'll give you a detailed timeline before we begin.
Yes. All NeuroxAI interfaces are designed for simultaneous neural recording and targeted stimulation, supporting closed-loop and adaptive experiments.
Our standard devices start at $2000 per BCI. Our advanced custom projects start at $50,000. We offer flexible pricing. From starter packages to full-scale design systems, we tailor each quote to fit your goals.
NeuroxAI products are intended for research use and are not designed or marketed for clinical or therapeutic applications.
Our systems are built for academic labs, research institutes, and industry teams working in neuroscience, neurotechnology, and brain–machine interface research.
Our interfaces are soft, stretchable, and ultra-high density, designed to conform naturally to the brain while minimizing manual intervention and standardizing data across experiments.
Timelines vary based on project scope, but most projects take 2–6 weeks. We'll give you a detailed timeline before we begin.
Yes. All NeuroxAI interfaces are designed for simultaneous neural recording and targeted stimulation, supporting closed-loop and adaptive experiments.
Our standard devices start at $2000 per BCI. Our advanced custom projects start at $50,000. We offer flexible pricing. From starter packages to full-scale design systems, we tailor each quote to fit your goals.
NeuroxAI products are intended for research use and are not designed or marketed for clinical or therapeutic applications.