Ecoperla Sample
EcoPerla | Walls / Floors
EcoPerla is a refined continuous surface finish developed from the Oleomalta® base system and enriched with delicate Mother of Pearl aggregates, creating a subtle luminous effect inspired by natural shells and coastal materials.
Suitable for both floors and wall applications, EcoPerla offers a soft and elegant material appearance with a more understated shell effect compared to the A MARE collection.
Its refined texture and natural reflections make it particularly suitable for contemporary interiors, bathrooms, wellness spaces, and wet areas.
EcoPerla can be applied over a wide range of suitable substrates, including existing tiles, plasterboard, cement sheeting, MDF surfaces, and concrete substrates, making it ideal for both renovations and new architectural projects.
As with all Oltremateria® continuous surfaces, EcoPerla can also be completed with ECOPUR® by Oltremateria®, an advanced eco-resin technology designed to actively purify and ionise indoor air while contributing to healthier interior environments through continuous air-purifying performance.
Developed from the Oleomalta® base system, these finishes incorporate recycled materials including EcoCoccio, Carrara marble, and Mother of Pearl aggregates, transforming reclaimed natural materials into refined contemporary continuous surfaces.
Containing more than 60% recycled material derived from certified recycling processes, the system combines sustainability, material research, and contemporary architectural design within a high-performance continuous surface solution.
Suitable for walls, floors, wet areas, furniture applications, MDF surfaces, and a wide range of interior substrates, Oltremateria® systems can be applied over almost any suitable existing surface, making them ideal for both renovations and new architectural projects.
All finishes can also be completed with ECOPUR® by Oltremateria®, an advanced eco-resin technology designed to actively purify and ionise indoor air while contributing to healthier interior environments through continuous air-purifying performance.

