Trends and Insights

The built environment, energy transition, and bio-based innovation are intersecting to tackle global challenges. From carbon-sequestering concrete to mycelium-derived insulation, materials are rewriting urban resilience. Energy storage leaps—solid-state batteries, hydrogen-ready alloys—demand scalable, ethical supply chains. Bio-hybrid systems, blending agricultural waste with advanced polymers, offer circular alternatives to plastics. At Materialeyes, we dissect regulatory shifts, tech breakthroughs, and lifecycle synergies shaping these fields. Explore how cross-sector collaboration turns constraints into catalysts, forging structures and systems that harmonize human progress with planetary boundaries.

Built Environments

Energy Materials

Biobased materials

Built Environments

Bio-based Materials

Projects

Coming Soon

Modular Horizons: Community-Driven Sustainable Kit Homes for Equitable Housing

This project aims to develop a suite of low-cost, modular building materials and systems, including complementary sustainable materials paired with participatory co-design frameworks to empower communities to self-fabricate climate-resilient homes. Integrate circular design principles, AI-assisted cost optimization, and localized supply chains to slash construction expenses while addressing housing shortages. Scalable, culturally adaptable templates ensure dignified shelter and skill-building opportunities, bridging equity gaps in urban and rural landscapes.

GeoBuilt Innovations: Bioclimatic Stone & Earth Systems for Resilient Communities

This collaboration pioneers scalable methods to transform vernacular stone and earthen materials into code-compliant, high-performance structures using sustainable binders and computationally driven structural optimization. By merging ancient techniques with modern materials science, we aim to address regulatory hurdles, integrate passive heating/cooling design, and reduce embodied carbon significantly. Through this project we intend for open-source fabrication toolkits to empower communities to build affordable, disaster-resilient housing while preserving cultural heritage and ecological balance.

EcoFiberComposites: Sustainable Construction with Bio-Based and Waste Fibres

This initiative focuses on pioneering eco-friendly fibre-reinforced cementitious composites for diverse applications in the built environment. By integrating bio-based fibres (e.g., hemp, flax) and repurposed waste fibres (e.g., agricultural byproducts, textile residues), we aim to develop durable, low-carbon solutions for load bearing and architectural applications. The project emphasizes data driven design and supply chain synergies.

4C technologies: AI enhanced simulation and modelling for energy materials

This project aims to provide versatile solutions for the computational design of electrode and electrolyte materials for batteries and fuel cells. Offering a customizable toolkit integrating first-principles calculations, machine learning with real-world materials insights, this project aims to serve the rapidly growing sector of energy materials innovation, empowering ventures with the data they needs to optimise materials design and processing.