Organisation/Company NORTHUMBRIA UNIVERSITY
Research Field Architecture Chemistry
Researcher Profile Established Researcher (R3)
Country United Kingdom
Application Deadline 14 Apr 2025 - 00:00 (UTC)
Type of Contract Permanent
Job Status Full-time
Is the job funded through the EU Research Framework Programme? Not funded by a EU programme
Is the Job related to staff position within a Research Infrastructure? No
Offer Description
ABOUT THE ROLE
We are seeking a highly motivated researcher to contribute to the development of next-generation bio-based construction materials as part of the BIOARC project at Northumbria University. Northumbria WP focuses on advancing Microbially Induced Calcite Precipitation (MICP) and green moulding techniques to transform agricultural and industrial waste into high-performance, sustainable building materials.
You will play a crucial role in isolating and characterising microbial strains, optimizing MICP processes, and developing bio-cementitious materials with enhanced durability and environmental benefits. Working in an interdisciplinary, international research environment, you will collaborate with engineers, architects, and industry partners to drive the translation of these materials from the lab to real-world applications.
The role includes travel to EU partner institutions to collect and analyse microbial strains, perform genome sequencing, and assess biomineralization potential. Additionally, you will contribute to prototype development and material testing, ensuring that bio-based materials meet industry standards for construction applications.
This is an exciting opportunity to shape the future of low-carbon, regenerative construction by integrating biotechnology, materials science, and sustainable design.
ABOUT THE PROJECT
The BIOARC (Bioregional Mineralisation with Agricultural Resources for Construction) project, funded under Horizon Europe, aims to revolutionize bio-based construction materials by transforming agricultural waste into durable, low-carbon, and fire-resistant building materials. The project addresses the urgent need for sustainable alternatives to carbon-intensive construction materials like cement, mineral wool, and gypsum, which contribute significantly to global CO₂ emissions.
BIOARC pioneers a novel biomineralization approach using Microbially Induced Calcite Precipitation (MICP) and green moulding techniques to develop scalable, biodegradable, and high-performance materials. By harnessing locally available agricultural by-products—including rice husks, wheat straw, hop fibres, and sunflower stalks—the project ensures that bio-based construction materials are regionally adaptable, economically viable, and environmentally regenerative.
The project brings together a diverse European consortium of research institutions, industry leaders, and community organizations, including Northumbria University, the Technical University of Munich, Cresco Biotech, and InnoRenew CoE. It integrates scientific innovation, industrial applications, and community engagement, developing four prototype construction products and establishing circular bio-based value chains.
Through real-world demonstrations, including pavilion structures and pilot projects, BIOARC aims to bridge the gap between research, industry, and policy, contributing to the New European Bauhaus initiative and shaping the future of sustainable construction.
ABOUT THE TEAM
The research team at Northumbria University is at the forefront of bio-based construction innovation, leading Work Package 2 of the BIOARC project. Based within the Living Construction group in Hub for Biotechnology in the Built Environment (HBBE), our interdisciplinary team integrates expertise in microbiology, biotechnology, materials science, and sustainable architecture to develop novel biomineralized building materials.
BIOARC is a collaboration between leading institutions, including Technical University of Munich, Cresco Biotech, InnoRenew CoE, and WeLoop, bringing together scientists, engineers, and industry partners across Europe. Together, we are pioneering scalable, low-carbon construction materials to transform the built environment.
ABOUT YOU
We are looking for a highly motivated researcher with a background in biotechnology, materials science, microbiology, or a related field. You will have experience in biomineralization, biofabrication, and sustainable construction materials, with strong experimental and analytical skills.
Expertise in Environmental Microbiology, Microbially Induced Calcite Precipitation (MICP), fermentation, and biochemistry is also essential. You should be comfortable working in interdisciplinary teams, collaborating with industrial and academic partners, and contributing to prototype development and material testing. A passion for circular economy principles and sustainable construction will be essential in shaping the future of bio-based materials.
Northumbria University is a research-intensive university that unlocks potential for all. We change lives regionally, nationally, and internationally through education and research, tackling the global challenges of our age to transform society and the economy.
Northumbria University is a great place to work. We empower our exceptional people to achieve shared ambitions and promote a positive work-life balance. We offer a wide range of benefits including excellent pension schemes, flexible working, a generous holiday entitlement, continued commitment to your learning and development.
Northumbria University is committed to creating an inclusive culture where we take pride in, and value, the diversity of our staff. We encourage and welcome applications from all members of the community.
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