2.1 TECHNOLOGY AREAS 2.1.1 Catalysts 2.1.2 Membranes 2.1.3 Fuel Additives 2.1.4 Green Manufacturing 2.1.5 Environmentally friendly nanocoatings 2.1.6 Pollutant absorption
2.2 TECHNOLOGY PROVIDERS 2.2.1 COMPANIES 2.2.1.1 Company 1 USA: Anti-corrosion hybrid nanocoatings 2.2.1.2 Company 2 USA: Fuels enhancers utilizing nanoclusters 2.2.1.3 Company 3 USA: Nano catalysts 2.2.1.4 Company 1 Sweden: Nanoparticulate additives for improvement of combustion and preventing of fouling and corrosion 2.2.1.5 Company 1 Israel: Highly chemical resistant polymer materials 2.2.1.6 Company 1 Germany: Corrosion protection with sol-gel coatings 2.2.1.7 Company 1 UK: Nanoscale organometallic catalysts 2.2.1.8 Company 2 UK: Nanoscale cerium oxide as a catalyst in catalytic converters 2.2.1.9 Company 1 France: Nano filtration membranes and nanoparticle catalysts 2.2.2 UNIVERSITIES 2.2.2.1 University 1 UK: Novel coating systems and chromium alternatives that will reduce the environmental impact of automobiles 2.2.2.2 University 2 UK: Electronic nose 2.2.2.3 University 1 USA: SWNTs as catalysts 2.2.2.4 University 2 USA: MWNT as catalysts 2.2.2.5 University 1 Belgium: Active catalysts for automotive pollution control 2.2.3 RESEARCH CENTRES 2.2.3.1 Research Centre 1 USA: Active catalysts based on nanoparticles of vanadia 2.2.3.2 Research Centre 1 Denmark: Nanocluster catalysts 2.2.3.3 Research Centre 1 Greece: Nanostructured catalysts for the emission control systems
3 MONITORING AND MEASURING
3.1 TECHNOLOGY AREAS 3.1.1 Detection 3.1.2 Gas sensors 3.1.3 Chemical and biochemical sensors 3.1.4 Remediation 3.1.5 Biodefence
3.2 TECHNOLOGY PROVIDERS 3.2.1 COMPANIES 3.2.1.1 Company 1 UK: Rapid detection of soil contamination 3.2.1.2 Company 2 UK: Ultra-Sensitive chemical sensor coatings 3.2.1.3 Company 1 USA: Nanoparticle immunoassay for pollution monitoring 3.2.1.4 Company 2 USA: Coating system with the continuous ability to decontaminate a surface exposed to biological agents 3.2.1.5 Company 3 USA: Nanomaterials for surface and air space decontamination,protective textiles, air and water purification and filtration 3.2.1.6 Company 1 The Netherlands: Waste heat and molecular separation 3.2.1.7 Company 1 Ireland: Surface engineering technology with multi-sectoral application 3.2.1.8 Company 1 France: Surface structures as sensors for water/air pollutants 3.2.1.9 Company 1 Finland: Air purification with nanoscale filtration 3.2.2 UNIVERSITIES 3.2.2.1 University 1 UK: Luminescence ceramic coatings where the luminescence is introduced by doping with rare earth ions 3.2.2.2 University 2 UK: Polyurethanes containing nano-cages for anti-fouling 3.2.2.3 University 3 UK: Nanoparticle sensors for the detection of pathogens and chemical agents 3.2.2.4 University 4 UK: Redox enzymes 3.2.2.5 University 1 Denmark: The use of electrodes to destroy unwanted organic compounds and to monitor wear and corrosion 3.2.2.6 University 1 USA: Quantum dot sensors for biological detection. 3.2.2.7 University 2 USA: Nanostructured chemical sensors for energy and environmental monitoring 3.2.2.8 University 3 USA: Chemically/electrically tuned carbon nanotube composites as effective self cleaning materials and molecular sensors 3.2.2.9 University 4 USA: Nanoscale biosensors 3.2.2.10 University 1 Georgia: Boron isotopes based semiconductors as sensitive elements 3.2.3 RESEARCH CENTRES 3.2.3.1 Research Centre 1 UK: Sensors based in silicon carbide (SiC) for harsh environments 3.2.3.2 Research Centre 1 Israel: Smart dust 3.2.3.3 Research Centre 1 Norway: Nanostructured hybrid and polymer materials for catalysis, selective separation and purification, chemical and biological sensing 3.2.3.4 Research Centre 1 Spain: Pollutant elimination and self-sterilisation applications
4 WATER FILTRATION AND TREATMENT
4.1 TECHNOLOGY AREAS 4.1.1 Filtration 4.1.2 Membranes for desalination and treatment 4.1.3 Adsorption 4.1.4 Water transport 4.1.5 Wastewater purification 4.1.6 Photocatalytic water disinfection
4.2 TECHNOLOGY PROVIDERS 4.2.1 COMPANIES 4.2.1.1 Company 1 Japan: Photocatalysis 4.2.1.2 Company 1 USA: Removal of heavy metals with silica-based nanocomposite 4.2.1.3 Company 2 USA: Nano alumina arsenic filter 4.2.1.4 Company 1 Denmark: Water purification using bionanotechnology 4.2.1.5 Company 1 Australia: Nanosilver catalysts for wastewater treatment 4.2.1.6 Company 2 Australia: Photocatalytic water purification 4.2.1.7 Company 1 UK: Colloidal suspension of nanoparticles 4.2.1.8 Company 1 The Netherlands: Detection of contaminants in water using nanowire sensors 4.2.2 UNIVERSITIES 4.2.2.1 University 1 UK: Nanostructured metal oxides for photocatalytic treatment of water 4.2.2.2 University 2 UK: Nano titania for the clean-up of detergents and waste treatment 4.2.2.3 University 1 Hong Kong: Photocatalytic oxidation 4.2.2.4 University 1 Germany: Nanostructured environmental biochemical sensor for water monitoring 4.2.3 RESEARCH CENTRES 4.2.3.1 Research Centre 1 Poland: Silver nano colloids 4.2.3.2 Research Centre 1 Spain: Water purification via photocatalysis
5 ENERGY CONVERSION AND STORAGE
5.1 TECHNOLOGY AREAS 5.1.1 Fuel cells 5.1.2 Solar Power 5.1.3 Rechargeable Batteries 5.1.4 Thermoelectrics 5.1.5 Piezoelectrics 5.1.6 Hydrogen conversion 5.1.7 Supercapacitors
5.2 TECHNOLOGY PROVIDERS 5.2.1 COMPANIES 5.2.1.1 Company 1 USA: Highly efficient hydrogen generation via water electrolysis using nanometal electrodes 5.2.1.2 Company 2 USA: Flexible solar cells 5.2.1.3 Company 3 USA: Nano solar cells 5.2.1.4 Company 4 USA: Nano polymer photovoltaic materials 5.2.1.5 Company 1 UK: Novel solar cells and solar cell concentrators 5.2.1.6 Company 2 UK: Nanomaterials for fuel cells 5.2.1.7 Company 3 UK : Mesoporous nanostructures for energy applications 5.2.1.8 Company 4 UK: Nanocatalysts for fuel cells 5.2.1.9 Company 1 Australia: Nanoscale solid oxide fuel cells 5.2.1.10 Company 2 Australia: Nanomaterials for hydrogen storage technology 5.2.1.11 Company 1 Germany: Carbon nanomaterials for catalysis, fuel cells, gas storage and sorption 5.2.1.12 Company 1 Sweden: Smart windows for lowering energy consumption 5.2.1.13 Company 2 Sweden: Nanoscale thermoelectrics 5.2.2 UNIVERSITIES 5.2.2.1 University 1 Belgium: Inorganic nanotubes tribology, resistance to shock wave impact, catalytic storage, photocatalysts and energy storage 5.2.2.2 University 1 USA: Photovoltaics, sensors and radiation shielding using nanocomposite materials 5.2.2.3 University 2 USA: Nanocomposite membranes for PEM fuel cells 5.2.2.4 University 3 USA: Multi-walled carbon nanotubes as fuel cell electrocatalysts 5.2.2.5 University 4 USA: Polymer photovoltaic and thermophotovoltaic devices 5.2.2.6 University 5 USA: Organic Semiconductors for Low-Cost Solar Cells 5.2.2.7 University 1 UK: Synthesis and characterization of composite metal nanoparticles for magnetic storage media 5.2.2.8 University 2 UK: Photoelectrocatalytic fuel cell 5.2.2.9 University 3 UK: Crystalline metal oxide nanotubes 5.2.2.10 University 4 UK: Thermoelectric conversion systems for waste heat recovery 5.2.2.11 University 5 UK: Nanostructured quantum wells for thermophotovoltaics and smart windows 5.2.2.12 University 1 France: Design, synthesis and characterization of novel materials containing nanometric phases, in the form of powders and dense materials 5.2.3 RESEARCH CENTRES 5.2.3.1 Research Centre 1 Taiwan: Nanomaterials for energy storage 5.2.3.2 Research Centre 1 Germany: Organic solar cell based nano-electrodes 5.2.3.3 Research Centre 1 Switzerland: Nanomaterials for solar energy applications
6 OIL AND PETROCHEMICAL PROCESSING
6.1 TECHNOLOGY AREAS 6.1.1 Anti-fouling surfaces 6.1.2 Heat transfer 6.1.3 Zeolites 6.1.4 Corrosion resistance in pipelines 6.1.5 Combustion 6.1.6 Process Monitoring
6.2 TECHNOLOGY PROVIDERS 6.2.1 COMPANIES
6.3 COMPANIES 6.3.1 Company 1 UK: Sensor system for process monitoring during oil refining 6.3.2 Company 2 UK: Micronizing of nanoparticle diamond as well as chemical suspension 6.3.3 Company 3 UK: Advanced instrumentation for gas adsorption 6.3.4 Company 4 UK: High-purity single and multi-wall carbon nanotubes 6.3.5 Company 5 UK: Thermal properties of liquids nanoparticles 6.3.6 Company 1 Finland: Nanocrystalline titanium dioxide catalysts suitable for antifouling and emission control 6.3.7 Company 1 France: Conductive nanomaterials 6.3.8 Company 1 United States: Nanocomposites and phase change materials for heat transfer 6.3.8.1 Company 2 United States: Nanofluids for Improved Heat Transfer 6.3.9 Company 3 United States: MThermal conduction enhancement provided by carbon nanotube additions to uids 6.3.10 Company 4 United States: Nanofluids 6.3.11 Company 1 Spain: Corrosion resistant and hydrophobic coatings 6.3.12 Company 1 The Netherlands: Carbon-aerogel membranes and carbon nanofoam membranes for power storage 6.3.13 Company 1 Germany: Nanodiamonds 6.3.14 Company 2 Germany: Nanostructured surfaces for chemical processings 6.3.15 Company 3 Germany: Manufacturing/process equipment for the nanostructuring of urfaces
6.4 RESEARCH CENTRES 6.4.1 Research Centre 1 UK: Improved heat transfer nanofluids for the automotive market 6.4.2 Research Centre 1 United States: Polymer-based, nanostructured coating system to coat a variety of steels 6.4.3 Research Centre 1 Italy: Synthesis and characterization of nanofluids consisting of conductive nanoparticles for heat transfer applications using sol-gel approach 6.4.4 Research Centre 1 Taiwan: Nanomaterials for energy storage 6.4.5 Research Centre 1 Russia: Carbon nanofibres for nanofluids with improved heat transfer 6.4.6 Research Centre 1 Czech Republic: Wear resistant carbon based nanocomposite coatings 6.4.7 UNIVERSITIES 6.4.8 University 1 United Kingdom: Nanopatterned surfaces in anti-fouling applications 6.4.9 University 2 UK: Nanoporous materials for downhole refinery applications 6.4.10 University 3 UK: Creation and size measurement of micro/nanoparticulates in fluid streams 6.4.11 University 4 UK: Anti-adhesive nano cages 6.4.12 University 5 UK: Zeolites and porous materials for heterogeneous catalysis 6.4.13 University 6 UK: Activating materials for enhanced photodegradation rates using thin films of photoactive materials 6.4.14 University 7 UK: Nanoporous materials 6.4.15 University 8 UK: Conductive nanopowders for nanofluids for improved heat transfer 6.4.16 University 9 UK: Heat transfer fluids incorporating nano-engineered particles 6.4.17 University 10 UK: Oxides and organic/inorganic hybrid nanostructured coatings to prevent fouling and corrosion 6.4.18 University 11 UK: Nano coatings for corrosion resistance, adhesion enhancement and wear esistance 6.4.19 University 1 India: India Ni-P based electroless robust nanocoating for corrosionresistance applications 6.4.20 University 1 New Zealand: The gas absorption properties of the nanostructured calcium silicate 6.4.21 University 1 United States: Solvent-free nanoparticles with liquid-like behavior and the ability to flow 6.4.22 University 1 Australia: Synthesized nanostructured TiO2-SiO2 particles that have higher BET surface areas and high photo reactivity 6.4.23 University 1 Turkey: Utilization of conductive carbon nanotubes and carbon particulates to develop conductive nanocomposites 6.4.24 University 1 Belgium: Organic coatings with an increased resistance to fouling and/or an improved cleanability 6.4.25 University 1 France: Self-assembled mono-layers for anti-fouling or anti-corrosion 6.4.26 University 1 Sweden: Filter media for absorption of gas pollutants 6.4.27 University 2 Sweden: Nanoparticulate additives for improvement of combustion and preventing of fouling and corrosion 6.4.28 University 1 Greece: Fluid flows and heat transfer phenomena in nano and micro devices 6.4.29 University 2 Greece: Fouling and corrosion prevention using chemical means and approaches
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