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  • We are a network of
  • 100 Researchers
  • 62 Research Projects
  • 15 Fellows
  • 42 PHD Students
  • 71 Industrial Partner Organisations
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  • Image :NRN007 - Functional and Biological Assessment of an Implant Material for Treating Focal Cartilage Defects

    NRN007 - Functional and Biological Assessment of an Implant Material for Treating Focal Cartilage Defects

    Sensors and Devices

    This project will investigate biological and functional properties of a surgical material called AlphaChondroShield®, and conventional surgical procedure microfracture both in vitro and in humans.

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  • Image :NRN012 - Using ‘Digital’ Materials to Establish  a Novel Investigative Platform for Cardiac Arrest

    NRN012 - Using ‘Digital’ Materials to Establish a Novel Investigative Platform for Cardiac Arrest

    Materials, Sensors and Devices

    This project will use an innovative manufacturing process, involving ‘digital’ materials (i.e. compounds formed by blending different proportions of the two base materials), to manufacture a human heart that can accurately simulate blood output during compression.

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  • Image :NRN019 - Computational Modelling of a Smart and Energy Efficient Prosthetic Foot

    NRN019 - Computational Modelling of a Smart and Energy Efficient Prosthetic Foot

    Modelling

    Swansea University has developed a passive dynamics model for walking with different masses for a prosthetic and an intact foot.

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  • Image :NRN024 - FLAIR: Flexible Access networks using Intelligent and Reconfigurable elements

    NRN024 - FLAIR: Flexible Access networks using Intelligent and Reconfigurable elements

    Modelling, Sensors and Devices

    The project will theoretically and experimentally explore innovative technical solutions capable of delivering DSP-enabled intelligence and software-controlled flexibility/reconfigurability.

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  • Image :NRN026 - Efficient Modelling and Optimisation of Advanced Nano-Plasmonic Optical Biosensors and Markers

    NRN026 - Efficient Modelling and Optimisation of Advanced Nano-Plasmonic Optical Biosensors and Markers

    Modelling, Sensors and Devices

    The aim of this proposal is to develop an efficient modelling technique for quantitative description, analysis, and optimization of advanced intracellular biosensors and markers for research and therapy based on optical resonances of metal nanoparticles.

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  • NRN Network Has Achieved
  • In excess of 100 papers published
  • Over 150 conference abstracts
  • £10m+ in research funding
  • Over £4m In industrial funding
  • Inspired Hundreads of young learners through its STEM activities