MATERIALS TECHNOLOGY / GERMANY

Advanced materials,
made sustainable.

Felderion is building electric-field-assisted manufacturing technologies to produce, transform and recover advanced materials with lower energy consumption, lower carbon emissions and greater circularity.

F / 01ADVANCED MATERIAL SYSTEMS
Electrically driven materials manufacturing
Lower energy and CO₂ per kilogram
Circular recovery and reuse of materials

Modern life is built on materials with a heavy footprint.

Advanced materials underpin modern industry and the technologies society increasingly relies on.

Yet many are still produced through energy-intensive, emissions-heavy and linear processes. Felderion is working to reduce the material-level footprint that is embedded in the products and technologies used by society.

Materials first.

The environmental footprint of a finished product begins upstream. We focus on the manufacturing and recovery of materials themselves, where energy use, carbon intensity and material loss are created.

THE OPPORTUNITYLess input.
More material value.

Rethinking the process at material level.

Electrical energy as a
materials-processing tool.

Felderion is building electric-field-assisted and electrothermal technologies that control how energy is delivered to material systems, creating new pathways for efficient transformation, regeneration and manufacturing.

01

Apply

Deliver precisely controlled electrical energy to the material system.

02

Transform

Use controlled electrical, thermal and atmospheric conditions to drive targeted material change.

03

Recover

Upgrade recovered feedstocks and return material value to productive use.

FIELD-ASSISTEDPROCESS-AWAREMATERIAL-SPECIFICSCALABLE AMBITION

Beginning with recovered graphite, where circularity and material performance meet.

Our first disclosed application is the regeneration and upgrading of recovered anode graphite used in electric-vehicle batteries. Further advanced-material applications are under development and will be revealed when the technical and intellectual-property position is ready.

01

Recovered anode graphite

Developing an electrothermal route to upgrade recovered graphite toward reusable material states while preserving material value and reducing processing intensity.

FIRST APPLICATION / IN DEVELOPMENT
02

Further advanced materials

We are evaluating additional material systems where electrically driven processing could create meaningful industrial and environmental value.

DETAILS COMING SOON

From scientific principle to industrial process.

Our current work focuses on material validation, process control, energy measurement, carbon benchmarking and scale-up. We build the evidence step by step, from laboratory feasibility to industrial integration.

01Material validation
02Process optimisation
03Performance verification
04Pilot scale
05Industrial integration
EVIDENCE BEFORE CLAIMS
CO₂ / kg
MEASURED AT MATERIAL LEVEL

Measure impact
before making claims.

Felderion is working toward lower energy demand and a lower carbon footprint per kilogram of processed material.

We will publish quantified comparisons only after the relevant process, system boundary, reference route and electricity assumptions are defined and supported by data. Until then, our focus is experimental validation and transparent carbon benchmarking.

Material-specific evaluation
Reference-based comparison
Evidence-led communication

Materials should
keep moving.

Felderion approaches circularity as a technical design challenge. Our aim is to regenerate, upgrade and reuse recovered materials while preserving the performance that makes them valuable.

01Recover

Identify and recover valuable material streams for further processing.

02Refine

Regenerate and upgrade materials toward useful, controlled states.

03Return

Return upgraded material value to productive use.

Building scientifically grounded materials processes for industry and a resource-efficient society.

Felderion is a Germany-based deep-tech venture developing a new generation of electrically driven materials processes.

We combine materials science, process engineering and disciplined industrial development to create technologies that can meet real performance, scale and sustainability requirements.

Science-led
Application-focused
Systems-minded

BUILD THE NEXT MATERIAL PROCESS

Complex materials challenges
need the right partners.

We are currently building and validating the Felderion technology platform. Technical details, validated performance data and further material applications will be released as development and intellectual-property milestones are completed.

If you are interested in becoming an industrial, research or strategic partner, contact us to begin a confidential discussion.

Become a Partner
01Industry

Joint development and application pathways.

02Research

Scientific cooperation and technology validation.

03Investment

Strategic investment for technology validation and industrial scale-up.

Let’s change how
materials are made.

Felderion is currently building its technology and partnership network. Contact us to discuss material validation, joint development, scale-up or strategic collaboration.

FELDERION

Germany
Working across European research and industry networks.