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iPair Labs · Advanced R&D

Research that
becomes
products

Since 2017 exploring nanotechnology, biotechnology, and robotics. In 2024 we brought our first innovations to market.

2017 Labs Founded
8 Research Lines
2024 First Products
2017 Start of nanotechnology research
2020 First exoskeleton prototypes
2024 Commercial products
Research Lines

Technologies we develop

Nanotechnology

Synthesis of carbon nanotubes and graphene for ultra-light, ultra-strong materials with high conductivity.

Nanotubes Graphene Smart Materials

Cellular Regeneration

Research in growth factors, exosomes, and nanoneedles for tissue regeneration and medical applications.

EGF Exosomes Nanoneedles

Biotechnology

Development of biomaterials, hyaluronic acid, and controlled release systems for health and wellness.

Hyaluronic Acid Biomaterials Transdermal Delivery

Assistive Robotics

Ultra-light exoskeletons with sensory integration for rehabilitation, industry, and capability enhancement.

Exoskeletons Wearables Sensory Integration
Case Studies

From research to prototype

Projects where our fundamental research becomes applied technology with real impact.

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Robotics · Neuroprosthetics

Intelligent Bioprostheses

We enabled a prosthetic hand to move more naturally

We developed high-resolution sensors and algorithms for interpreting muscle signals that allow for more intuitive control and smoother movements. The integration of ultra-light materials (carbon nanotubes) reduces weight by 40% without sacrificing strength.

Applications in development

Rehabilitation Pediatric Prostheses Neural Control Tactile Feedback
40% less weight
12 degrees of freedom
Robotics · Wearables

Assisted Exoskeletons

Enable natural movements and muscle recovery

Our exoskeletons integrate state-of-the-art actuators and carbon nanotube structures, achieving an unprecedented strength-to-weight ratio. Ideal for rehabilitation (gait recovery) and for increasing endurance in industrial environments.

Applications

Motor Rehabilitation Factory Assistance Heavy Logistics AI Integration
60% less effort
3.2kg total weight
Nanotechnology · Materials

Carbon nanotubes

In-house synthesis to integrate into structures reducing size and weight

We have developed a synthesis process that allows us to produce high-purity carbon nanotubes with controlled length. This opens the door to:

Applicable technology in

Aerospace components Ultra-light structures High-density batteries Quantum sensors Electromagnetic shielding
100x stronger than steel
1/6 the weight
Advanced Materials · Wearables

Graphene Smart Textiles

Clothing with sensors, heating, and protection

We have successfully integrated graphene into textile fibers, creating fabrics with unique properties: electrical conductivity, heating capacity, radiation resistance, and biosignal detection.

Multiple applications

Antibacterial bandages Patient monitoring Anti-static clothing Firefighter uniforms Heated seats Clothing with integrated heating
5 patents pending
2025 first products
Technology Platforms

Enabling technologies

Nanotube synthesis

In-house production of high-purity carbon nanotubes

Exosome engineering

Isolation and modification of exosomes for cell therapy

Textile sensors

Integration of graphene into fibers for biosignal detection

Soft actuators

Flexible materials for natural movement in exoskeletons

Research with impact

We explore emerging technologies that can transform medicine, materials, and the interaction between humans and machines.

Collaborate with Labs View publications