Materials Innovation

Advanced Materials and Manufacturing

We develop and scale advanced material platforms that unlock breakthrough performance across healthcare, wearables, additive manufacturing, and emerging industries.

PEDOT:PSS Platform

The Conductive Polymer Platform Powering Next-Generation Wearables

PEDOT:PSS is a highly conductive, flexible polymer that enables stable, high-fidelity sensing and actuation in textiles and devices.

Unlike traditional metal-based conductors, PEDOT:PSS integrates seamlessly into fibers, films, and coatings maintaining performance, comfort, and durability even under the most demanding conditions.

PEDOT:PSS Glowing Fiber

Why PEDOT:PSS Matters

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Clinical-Grade Signals

Delivers stable, low-noise electrical signals for accurate monitoring and reliable performance in real-world conditions.

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Skin-Safe & Biocompatible

Engineered for prolonged skin contact with excellent biocompatibility and minimal irritation ideal for next-generation health interfaces.

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Sustainable by Design

Solution-processable and metal-free, PEDOT:PSS reduces environmental impact while enabling scalable, cost-effective manufacturing.

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Seamless Integration

Easily incorporated into fibers, films, inks, and coatings without compromising flexibility, stretch, or comfort.

A Tunable Platform

Built Around Your Application

PEDOT:PSS performance depends on more than just chemistry molecular weight, D:S ratio, additives, and processing all influence conductivity, stretchability, adhesion, and stability.

Our platform is engineered to be tunable, so you get the right performance for your exact use case.

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From material formulation to application-ready formats, we tailor PEDOT:PSS to meet the demands of your device, process, and performance targets whether you're developing wearable sensors, smart textiles, soft robotics, or beyond.

Spec Range

  • Transparency as high as 90% (diameter of 100nm)
  • Sheet Resistance of 50–500 Ω/sq
  • Cure: <130 °C in less than 5 min
  • Mechanical: overprint-safe
  • Compatibility: water-based inks
  • Electrochemical: stable, reversible performance
  • Solid Content: 1–3%
  • High Conductivity
  • L* ≈ 30–100

Order Standard Quantities

Choose the right size for your R&D or production needs.

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100 mL
Ideal for prototyping and early development.
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1 L
Designed for scaling and pilot runs.
OR

Request Bulk Quantity

Need larger volumes or a custom solution?
Our team is ready to support your scale and specifications.

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Fast response from our technical team.

Polymer Particles

Engineered Polymer Particles

Precision Polymer Particles. Engineered Without Compromise.

Myant X's stabilized dispersion technology is a breakthrough platform for engineering polymer particles with unparalleled control over size, shape, surface, and composition.

From ultra-fine powders to functionalized microspheres, our process delivers consistent, high-purity particles with minimal waste unlocking performance and possibilities across a wide range of industries and applications, including advanced additive manufacturing (SLS), coatings, healthcare, and beyond.

The Myant X Advantage

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Precision by Design

Tunable particle size from sub-10 microns to >150 microns with narrow distributions and consistent morphology.

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Purity & Consistency

Engineered in a controlled process environment for high purity, batch-to-batch repeatability, and reliability at scale.

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Surface & Functional Control

Tailor surface chemistry and incorporate functional additives during particle formation for purpose-built performance.

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Efficient & Sustainable

High material yield with low waste and reduced energy demand compared to traditional size reduction technologies.

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Versatile Materials Platform

Applicable to a wide range of polymers and formulations from commodity resins to advanced engineering polymers and beyond.

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Scalable Innovation

A robust, scalable platform ready to support R&D, pilot development, and high-volume production requirements.

One Platform. Endless Possibilities.

Powering Innovation Across Industries

Our engineered polymer particles are designed to meet the unique demands of diverse industries from advanced manufacturing and additive manufacturing (SLS) to coatings, healthcare, electronics, cosmetics, and more. For AM applications, our highly spherical, narrowly distributed particles enable superior flowability, higher packing density, and consistent layer recoating for stronger, more precise parts with excellent surface finish.

Whether you need improved flowability, enhanced functionality, controlled release, or next-generation materials, our platform is built to deliver.

precision_manufacturingAdditive
Manufacturing
(SLS)
format_paintCoatings &
Inks
medical_servicesHealthcare &
Pharma
memoryElectronics
sanitizerPersonal Care &
Cosmetics
ecoSustainable
Solutions

TPU70 SLS Powders

Specifications

Particle Size
20–100 nm
(GSD: 1.25)
Aerated Bulk Density
0.60 g/mL
Tapped Bulk Density
0.70 g/mL
Angle of Repose
32.6°

Order Options

Choose the right size for your needs.

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5 kg
Ideal for R&D and prototyping.
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25 kg
Designed for pilot runs and production.

Custom quantities available upon request.

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Smart Insole Exploded View

Energy Generating Platform

Harvest Ambient Energy. Power What Matters.

Myant X is developing a piezoelectric energy generating platform that converts ambient mechanical energy such as movement, pressure, and vibration into usable electrical energy. Our materials and device architecture are designed to efficiently harvest energy from everyday motions and store it in a rechargeable capacitor to power low-power electronics, eliminating the need for conventional batteries.

This platform unlocks a new generation of self-powered wearable devices, sensors, and IoT systems with a lower environmental footprint and greater design freedom.

The Myant X Advantage

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Ambient Energy Harvesting

Converts mechanical energy from footsteps, motion, and vibration into clean electrical energy.

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On-Board Energy Storage

Charges a capacitor to store energy and deliver power to low-power electronics on demand.

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High-Performance Materials

Advanced piezoelectric composites engineered for high charge output, durability, and design flexibility.

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Battery-Free Solutions

Reduces mass, bulk, and environmental waste by eliminating or minimizing the need for batteries.

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Power for What's Next

Designed to power sensors, LEDs, microcontrollers, and other low-power electronics in wearable and IoT devices.

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Built for Real-World Use

Targets real-world applications like smart insoles, wearables, and industrial sensors where energy is everywhere.

One Platform. Endless Possibilities.

Powering Innovation Across Industries

Our energy generating platform is a foundation for self-powered innovation. While our initial demonstrator targets smart insoles and wearables, the same technology can be adapted to a wide range of applications and form factors.

From healthcare patches and industrial sensors to smart textiles and asset tracking, we are building the technology that turns motion into power anywhere, anytime.

stepsWearables &
Smart Insoles
monitor_heartHealthcare
Devices
factoryIndustrial IoT &
Sensors
layersSmart Textiles &
E-Textiles
location_onAsset Tracking
& Logistics
settings_input_antennaLow-Power IoT
& Connectivity

Microneedle Platform

Invisible access.
Actionable insights.

Our microneedle platform enables minimally invasive measurement of biomarkers beneath the skin unlocking a new frontier in continuous health intelligence.

Platform Capabilities

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Measure What Matters

Detect and quantify ions and biomarkers beneath the skin including sodium levels with high precision.

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Advanced Sensing

Engineered microneedles designed for accurate, reliable, and repeatable measurements.

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Designed for Performance

Optimized for stability, consistency, and seamless integration with next-generation wearable systems.

Microneedle Array

Beyond the Surface

Unlocking insights that were previously out of reach.

By accessing interstitial fluid with microneedles, our platform can measure salt content and other biomarkers in real time providing earlier, more actionable insights for a wide range of health applications.

Our microneedle platform is in advanced development.

To learn more about our capabilities and potential collaborations, reach out to our team.

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Coated Conductive Yarn

Yarn Coating Platform

Built to perform.
Coated to protect.

Our yarn coating platform uses a proprietary process to apply advanced protective layers to conductive yarns preventing short circuiting under demanding conditions while preserving the yarn's processability, flexibility, and performance.

Platform Capabilities

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Prevent Short Circuiting

Advanced coatings provide robust insulation to prevent electrical shorting even in high-sweat and high-motion environments.

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Production Ready

Designed to withstand the full textile manufacturing process without compromising yarn performance or manufacturability.

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Maintain Textile Integrity

Preserves the natural hand-feel, flexibility, and durability of the yarn for next-generation wearable applications.

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Versatile & Scalable

Compatible with a wide range of yarns and textile structures built for scale and adaptable to your application.

Powering What's Next

Protection that unlocks innovation.

From high-sweat wearables to mission-critical smart textiles, our yarn coating platform helps you bring advanced functionality to market with confidence.

Interested in learning more?

Reach out to our team to explore how our yarn coating platform can support your next product.

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Partner with
MYANTX

Whether you need end-to-end product development, custom manufacturing, or advanced materials R&D, our engineering team is ready to bring your application to life.

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Global Footprint

Toronto, ON (HQ) Zurich, CH Taiwan Boston, MA

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