Nanolyse Technologies Ltd
Nanolyse Technologies is dedicated to developing smart, nanomaterials, multi-functional materials, analytical testing, and chemical sensor technologies to create sustainable solutions for environmental monitoring, waste management, and clean technology. Originating from Oxford University in 2020, the company focuses on advanced materials and nano-enabled sensors, collaborating with UK universities and industry leaders to address critical challenges in sustainability and environmental protection.
Industries
Nr. of Employees
small (1-50)
Nanolyse Technologies Ltd
Rutherford Appleton Laboratory, R27 Atlas Centre, Fermi Avenue, Harwell Campus, Didcot, Oxfordshire, OX11 0QX, UK
Products
Prototype chemical speciation system (bench-top)
Bench-top system that uses nanoporous membrane separations and magnetic nanocarriers to selectively capture and concentrate ionic species from water samples for speciation analysis.
Portable microfluidic detector (in development)
Miniaturised microfluidic detector designed to separate ions from small liquid volumes and integrate with compact sensors for on-site water toxicity testing.
Prototype chemical speciation system (bench-top)
Bench-top system that uses nanoporous membrane separations and magnetic nanocarriers to selectively capture and concentrate ionic species from water samples for speciation analysis.
Portable microfluidic detector (in development)
Miniaturised microfluidic detector designed to separate ions from small liquid volumes and integrate with compact sensors for on-site water toxicity testing.
Services
Specialist development and application of magnetic nanoscale materials for selective extraction, water treatment and cleanup technologies.
Consultancy and analytical services for chemical and geochemical speciation, including modelling and interpretation of species-specific toxicity and bioavailability.
Synthesis, characterisation, formulation and ecotoxicity testing of a range of nanoscale materials and composites for environmental and industrial applications.
Analytical data processing, interpretation and reporting to convert experimental and environmental data into actionable insight.
Design, prototyping and testing of nano-enabled chemical sensors for industrial and environmental monitoring, with pathways to portable devices.
Exploratory R&D and testing focused on sustainable materials, circular economy solutions, zero-waste and low-carbon applications.
Specialist development and application of magnetic nanoscale materials for selective extraction, water treatment and cleanup technologies.
Consultancy and analytical services for chemical and geochemical speciation, including modelling and interpretation of species-specific toxicity and bioavailability.
Synthesis, characterisation, formulation and ecotoxicity testing of a range of nanoscale materials and composites for environmental and industrial applications.
Analytical data processing, interpretation and reporting to convert experimental and environmental data into actionable insight.
Design, prototyping and testing of nano-enabled chemical sensors for industrial and environmental monitoring, with pathways to portable devices.
Exploratory R&D and testing focused on sustainable materials, circular economy solutions, zero-waste and low-carbon applications.
Expertise Areas
- Chemical speciation analysis
- Nano-enabled sensor development
- Nanomaterial synthesis and characterisation
- Environmental and water analysis
Key Technologies
- Magnetic nanocarriers
- Nanoporous membrane separations
- Microfluidics
- Chemical speciation modelling
News & Updates
Nanolyse secured Innovate UK funding for sustainable bio-based materials and manufacturing.
Development of new water toxicity-testing technology by Oxford University scientists.
New nanotechnology process for water toxicity testing developed by Oxford scientists.
Nanotechnology process for water toxicity testing ready for field use.
New nanotech device for onsite water toxicity testing.
Techniques for chemical speciation analysis are essential for understanding the impact of chemical species on health, environment, and industry.
Nanolyse secured Innovate UK funding for sustainable bio-based materials and manufacturing.
Development of new water toxicity-testing technology by Oxford University scientists.
New nanotechnology process for water toxicity testing developed by Oxford scientists.
Nanotechnology process for water toxicity testing ready for field use.
New nanotech device for onsite water toxicity testing.
Techniques for chemical speciation analysis are essential for understanding the impact of chemical species on health, environment, and industry.