Innovaatioportfolio

FireSafe

Biopohjainen palonestoaine rakennusteollisuuteen.

H2flame - Ilya Morev & Ville Vuorinen, Aalto University

Status:

Pre-business

SDGs:

Industry, innovation and infrastructure

Industry:

Biochemistry and chemistry

Impact:

Sustainable materials, Sustainable systems, Quality of life

Origin:

Research to Business

School:

Kemian tekniikan korkeakoulu

Established:

2025

FireSafe keskittyy biopohjaisen palonestoaineen kehittämiseen rakennusteollisuuden tarpeisiin.

Projektin tavoitteena on kehittää rakennusmateriaalien palonsuojakäsittely biopohjaisilla – myös puupohjaisilla – raaka-aineilla, jotka eivät sisällä haitallisia kemikaaleja. Hankkeen tavoite on edelleen luoda teollisuudelle kokonaan uusi palonsuoja-aineiden biopohjainen konsepti, ja siihen liittyvät raaka-aineet.

Kun julkinen rakennus rakennetaan, käytettävien materiaalien on täytettävä tietyt paloluokkavaatimukset. Koska puu itsessään ei täytä tiukimpia vaatimuksia, se on usein käsiteltävä palonsuoja-aineilla. Monet markkinoiden johtavista palonsuojakäsittelyaineista ovat kuitenkin haitallisia ympäristölle ja ihmisten terveydelle. EU on viime vuosina kiristänyt näiden regulaatiota.

Palonsuojausmarkkinoiden ennustetaan nousevan 14,7 miljardiin Yhdysvaltain dollariin vuoteen 2030 mennessä. Monet markkinoilla olevat palonsuojatuotteet sisältävät ”Erityistä huolta aiheuttavia aineita” (Substances of Very High Concern, SVHC), joita myös tullaan kieltämään EU:ssa jo lähitulevaisuudessa. Teollisuus on siis väistämättä siirtymässä pois monista nykyisin käytössä olevista palonsuoja-aineista, joille projektissa kehitetään biopohjaisia ja haitattomia vaihtoehtoja.

Hankkeessa kehitetään tulipalon kuumuudessa eristäväksi hiilikerrokseksi paisuvaa ja siten tulipalon etenemistä hidastavaa ns. intumescent -pinnoitetta, joka tässä valmistetaan haitallisten ja fossiilisten raaka-aineiden sijasta biomateriaaleista, jotka tarjoavat ympäristöystävällisen vaihtoehdon nykyisille kemikaaleille. Ensimmäiset testitulokset ovat ylittäneet odotukset, ja aineet näyttävät toimivan jopa paremmin kuin markkinoilla olevat kaupalliset ratkaisut.

Business Finlandin rahoittama Research to Business FireSafe -hanke etsii kaupallistumisreittejä kehitetyille palonsuojamateriaaleille, esimerkiksi Aallon spinout -startupin, tai teollisen kumppanin kautta.

Aiheesta lisää: https://www.aalto.fi/fi/uutiset/biopohjainen-ratkaisu-voi-korvata-haitalliset-palonsuoja-aineet

Why FireSafe?

Wood is increasingly chosen in modern construction for its low carbon footprint, natural aesthetics, and sustainability benefits. However, ensuring fire safety without compromising health or the environment remains a major challenge.

Many conventional fire-retardant systems still rely on substances of very high concern (SVHCs), including melamine derivatives and halogenated compounds. These chemicals raise growing concerns related to human health, environmental impact, and long-term regulatory risk. Across the EU, fire-retardant chemistries are facing intensifying regulatory scrutiny. Several widely used substances are being reviewed or phased out, creating uncertainty for manufacturers and accelerating demand for safer alternatives.

FireSafe is designed to meet this moment. It offers a non-toxic, bio-based, high-performance fire-retardant technology that delivers strong fire protection while aligning with tightening EU chemical safety regulations and sustainability goals.

FireSafe enables safer buildings today - and a more resilient, future-proof approach to fire protection tomorrow.

When exposed to fire, the FireSafe coating swells to form a protective, char-like layer that insulates the surface, blocks heat and slows the spread of fire.
This process, known as intumescence, is considered the gold standard in fire protection. Traditionally, it relies on fossil-based and often harmful chemicals. FireSafe delivers the same high-level protection using safe, bio-based ingredients.
In our tests, FireSafe extended evacuation time by up to five times compared to conventional fossil-based fire-retardant solutions.

Our technology has demonstrated significant ignition delay - up to six minutes in tests - far exceeding performance of many conventional solutions while using only safe, majority bio-based ingredients. This breakthrough enables safer interiors, enhances evacuation time, and supports wider adoption of sustainable wood in construction.

Facts

Toxic fire retardants are being phased out

Many traditional fire retardant chemistries rely on problematic substances that are being restricted in the European Union. Industries urgently need safe alternatives that meet both fire-performance and environmental standards.

Wood construction is growing

As wood replaces concrete and steel in low-carbon building strategies, demand for safe fire-retardant coatings increases.

Indoor air quality cannot be compromised

FireSafe is designed for M1-level emissions performance, ensuring no harmful off-gassing during normal indoor use - critical for schools, offices, and residential applications.

Effective fire protection is essential

FireSafe is developed to achieve Euroclass B-s1,d0 fire performance, a commonly required fire safety standard for wood and many other building materials.

Climate targets require bio-based solutions

FireSafe’s renewable, low-CO₂ formulation supports sustainable-construction goals throughout the value chain.

Public spaces built with wood are meant to be not only visually stunning and enjoyable to spend time in, but also safe. FireSafe is designed to preserve the natural beauty of wood while remaining safe for people and the environment. In the event of a fire, it delivers highly effective protection -significantly extending evacuation time and helping people reach safety.

What FireSafe offers & its benefits

A predominantly bio-based fire-retardant system leveraging plant-derived and natural polymers.

Significant ignition delay and strong intumescent behaviour, tested against conventional FR systems.

SVHC-free
Melamine-free
Halogen-free
Water-based
Designed for low VOC and ammonia emissions

Effective across:

Wood coatings
Insulation
Acoustic materials
Potential in textiles and metals

Usable as:

A ready coating
A drop-in additive for primers or one-layer fire retardant systems

Concept development

FireSafe has undergone laboratory development and initial fire-testing, including:

Ignition-delay trials
Coating integration with industrial binders
Air-quality pre-tests
Weathering studies (for exterior variants)

Pilots with Finnish coating and wood-cladding manufacturers begin in Q1/2026, where FireSafe will be evaluated both as an additive and as a standalone fire retardant coating system.