Category AIndustrial brownfields
Heavy-metal and petroleum-hydrocarbon remediation across industrially degraded sites, including legacy mercury mining (USA Superfund references).

A new approach to restoring contaminated land, protecting critical infrastructure and supporting civil resilience in a changing world.
TerraRestore develops advanced environmental remediation technology designed to reduce contamination from radionuclides, mercury, and heavy metals while supporting land restoration and environmental recovery.
Globally, approximately 20 million hectares of agricultural land are contaminated with heavy metals (UNEP), and around 200,000 km² are affected by radioactive contamination.
Industrially degraded sites.
A four-stage engineering solution for the remediation of heavy metals, radionuclides, and mercury. Each stage is verified against internationally recognised standards.
Chemical and microbiological soil assessment, contaminant mapping, and baseline risk evaluation.
Targeted contaminant extraction or stabilisation — ex-situ and in-situ methods adapted to the contaminant and soil type.
Rebuilding living soil structure and microbial viability for sustainable downstream use.
Long-term verification against international standards by independent accredited laboratories.
Each stage is verified against international standards, with results confirmed by independent accredited laboratories.
Reduction of gamma (γ) radiation levels on contaminated equipment surfaces after 60 minutes of TerraRestore treatment.
| No. | Equipment 1 (μR/kg) | Equipment 2 (μR/kg) | ||||
|---|---|---|---|---|---|---|
| Before | After | Effectiveness | Before | After | Effectiveness | |
| 1 | 74 | 17 | 77.0% | 860 | 19 | 97.8% |
| 2 | 560 | 18 | 96.8% | 400 | 18 | 95.5% |
| 3 | 98 | 23 | 76.5% | 150 | 30 | 80.0% |
| Avg | 244 | 19 | 83.4% | 470 | 22 | 91.1% |
The results demonstrate a significant reduction of gamma (γ) radiation contamination on equipment surfaces after TerraRestore treatment, indicating strong potential for industrial decontamination applications.
The platform addresses two principal categories of contaminated land where remediation is a large-scale public-health and ecological challenge.
Category AHeavy-metal and petroleum-hydrocarbon remediation across industrially degraded sites, including legacy mercury mining (USA Superfund references).
Category BIn the Fukushima region, Japan currently stockpiles radioactively contaminated soil in millions of bulk bags — an interim containment measure rather than a long-term solution. TERRA RESTORE's technology goes beyond isolation, restoring soil structure and viability in line with IAEA and Minamata Convention guidelines.
Developing technologies that support global preparedness for nuclear and environmental emergencies.
The world currently lacks fast and scalable solutions for reducing radioactive contamination during crisis situations. TerraRestore is developing a new approach that may help reduce radiation exposure and restore affected environments.
Following international validation, TerraRestore aims to support governments and institutions with additional preparedness capabilities for nuclear accidents and environmental disasters.
A successful validation process could contribute to stronger civil protection systems and improved emergency response for future generations.
Soil remediation is one of the largest infrastructure needs of the coming decade. We are seeking investors, corporate partners, and government agencies for the pilot and scale-up phase.
Joint field pilots with landowners, corporations, or government agencies.
Seed and Series A capital from climate-tech and deep-tech funds — impact and financial return in regenerative soil infrastructure.
Licensing for environmental engineering corporations that require validated remediation technology.
Joint R&D programmes with universities and national laboratories.
We work with landowners, environmental agencies, municipalities, research institutes, and investment funds. We aim to respond within 48 hours.