NANOGAP

At NANOGAP, our track record in developing advanced and sustainable technologies has positioned us as an industry benchmark. Why are we the ideal partner to transform CO2 conversion and lead the change towards a cleaner future? 🌍 15 Years of Experience Since 2009, we at Nanogap have been at the forefront of innovation in nanotechnology and advanced catalysts, with an unwavering commitment to sustainability. 🔬 20 International Patents Our technology is globally protected, ensuring our partners exclusive access to pioneering solutions in the conversion of CO2 to sustainable fuels. 🔥 >95% Conversion to CO Our RWGS catalysts achieve exceptional CO2 to CO conversion efficiency, with 100% selectivity and no unwanted methane production. 🌱 30% Reduction in Energy Consumption Thanks to our advances, we have been able to significantly reduce the energy required for the RWGS process, which translates into lower operating costs and reduced environmental impact. 📈 17% Annual SAF Market Growth The Sustainable Aviation Fuels market is booming - will you join us in leading the change?

The Paris Agreement is more than a treaty; it is an urgent call to action to limit global warming and reduce our carbon emissions. 🤝 To meet the targets set and achieve carbon neutrality by 2050, it is imperative to transform sectors such as aviation, which is one of the most difficult to decarbonise. At NANOGAP, we believe that the key to achieving true decarbonisation lies in disruptive technological innovations and our RWGS (Reverse Water-Gas Shift) technology plays a crucial role in this transformation by converting CO2 into sustainable aviation fuels (SAF). The challenge is immense: to comply with the Paris Agreement, at least 325 million tonnes of SAF per year will be needed. Our solution contributes directly to achieving this goal by enabling efficient, large-scale production of sustainable fuels, essential to reducing aviation's carbon footprint. 🌱 Let's work together to make decarbonisation a reality and to ensure a sustainable and viable future for all!

Aviation is one of the most complex sectors in the race towards decarbonisation, but there are promising avenues that can make a difference. At NANOGAP, we are exploring and developing solutions that have the potential to transform the future of sustainable fuel. ✈️ Our focus is on RWGS (Reverse Water-Gas Shift) technology, an innovative process that allows us to convert CO2 into high quality syngas for production of sustainable aviation fuels (eSAF). This technology could cover more than 50% of the demand for sustainable aviation fuels by 2050, helping to take a major step towards a cleaner and more efficient aviation sector. The secret of our technology lies in the stability and efficiency of our catalysts, which are able to operate at high temperatures without degrading or producing unwanted by-products such as methane. A breakthrough that opens up new opportunities for the sustainable fuels industry. Interested in being part of the next big innovation in sustainable fuels? Contact us and let's join forces to revolutionise the industry.📞

Why is NANOGAP the Ideal Catalyst Partner for RWGS? 🔝 In a constantly evolving market, what sets us apart at Nanogap is our unique and patented approach to catalyst development. While others continue to use conventional, tailored catalysts, we have designed from scratch a catalyst specifically for the RWGS reaction, optimised for high temperatures and with superior stability: Metal Molecules. Coupled with traditional catalysts, our M-Ms revolutionise the understanding of RWGS processes. This bottom-up approach has enabled us to: 📈Maximise efficiency: High conversion and selectivity in CO production. 💵️Reduce costs: Efficient operation at lower temperatures, reducing energy consumption. 🔏Protect our technology: With patented processes that ensure a competitive advantage in the market. You know, if you are looking for a partner with the ability to transform CO2 into sustainable and scalable solutions, Nanogap is your ideal choice 🤝. Don't hesitate to contact us!

❓ Still don't know the best way to effectively tackle heavy metals and other pollutants in water? Our Metal Molecules have the answer: M-M technology is transforming wastewater treatment with an innovative approach that protects both the environment and human health. 🔧 Technical Highlights: Chromium Reduction: our M-M catalysts excel in their ability to remove soluble Cr(VI) up to 10 times more effectively, converting it to Cr(III), a much less toxic form. Co-pollutant removal: We not only remove heavy metals; our catalysts also tackle organic co-pollutants such as bisphenol A through oxidation processes. Thanks to its dual-action capability, our M-M technology offers a comprehensive solution for wastewater treatment, effectively addressing both metal and organic contaminants. 🌐 Find out how we are advancing water purification with cutting-edge technology!

NANOGAP's Metal Molecule (M-M) catalysts are setting new benchmarks in advanced oxidation processes (AOPs) for the elimination of persistent organic pollutants!!  Our cutting-edge technology, modifying existing catalysts, offers transformative solutions for water treatment, leveraging the power of radical chemistry to achieve superior environmental protection. Our M-M catalysts are highly effective in activating radicals, which are crucial for AOPs. This leads to: ⚛️ Catalyzed Radical Activation: The M-M catalysts significantly enhance the activity of reactive radicals, such as hydroxyl radicals (•OH), which are essential for breaking down complex contaminants such as pesticides, pharmaceuticals, and fertilizers. ☁️ Enhanced UV Driven Degradation: M-M have a dual effect in enhancing photocatalytic degradation; firstly,  light adsorption is significantly increased, and secondly, photocatalytic reaction efficiency is improved, again resulting in more efficient degradation of pollutants The integration of M-M catalysts into AOPs represents a major step forward in the treatment of contaminated water. By enhancing the breakdown of pollutants, we provide a powerful tool for environmental protection, advancing the efficacy of water remediation technologies.🌍🔬

Biofuels derived from soya or palm present significant environmental sustainability challenges, including deforestation, biodiversity loss, and competition with food. 💥 At NANOGAP, we offer a scientifically advanced alternative through our innovative Reverse Water Gas Shift (RWGS) process. Utilizing our proprietary Metal Molecules technology, we catalytically convert CO2 and green hydrogen into high purity syngas, enabling highly efficient low temperature Fischer Tropsch conversion into liquid fuels. This method not only addresses the critical issue of CO2 emissions but also provides a sustainable solution that bypasses the ecological and ethical issues associated with conventional biofuels. 🌱 Unlike soya and palm-derived fuels, which contribute to deforestation and food competition, our approach utilizes CO2, a greenhouse gas, as a feedstock, effectively closing the carbon loop with a 96% reduction in carbon emissions vs fossil fuels, comparing favorably to an 80% reduction for biofuels. Nanogap’s commitment to leveraging advanced catalytic technologies for sustainable fuel production underscores our dedication to creating eco-friendly and ethically sound energy solutions. By transforming CO2 into valuable fuels, we support the global transition towards a low-carbon economy and help mitigate the adverse impacts of climate change. ♻️

Bisphenol A (BPA), a ubiquitous environmental contaminant known for its harmful health effects, presents significant challenges in water remediation. At NANOGAP, we have found that attaching our metal molecule (M-M) catalysts to conventional catalysts represents an innovative solution for efficient BPA degradation. And such a simple modification that has all of these benefits!👇 🟡 With UV light, M-M catalysts demonstrate remarkable efficiency, achieving BPA degradation rates more than 3 times higher than TiO2 photocatalysts alone, even under ambient oxygen conditions. 🟡 Moreover, supplementing M-M catalysts with additional oxidizing agents such as ozone (O3) and hydrogen peroxide further accelerates the degradation process.  🟡 These agents facilitate the generation of reactive oxygen species (ROS), which synergistically enhance the oxidation of BPA intermediates into harmless by-products, thus increasing the overall treatment efficiency. The ability of Nanogap's M-M catalysts to effectively degrade BPA underscores their potential in combating the environmental and health impacts associated with endocrine-disrupting chemicals.  Want to know more? Find out much more about how our technology can provide a robust solution for BPA degradation in our latest blog post on the web!

Intensive fertilizer used in agriculture results in waters rich in nitrogen and phosphorus, leading to uncontrolled growth of harmful algal blooms (HABs) that block sunlight and deplete oxygen in aquatic environments. This results in anoxic conditions detrimental to aquatic life and water quality. 💧 At NANOGAP, we address this problem with our advanced metal molecule technology, which enhances water purification through advanced degradation processes (ADPs). Our metal molecules bind to traditional catalysts to act as powerful catalysts in ADPs such as ozone (O3) and ultraviolet (UV) treatments, accelerating and increasing the efficiency of the decomposition of pollutants to non-harmful species, including excess of nitrogen and phosphorus compounds from agricultural runoff. The integration of Nanogap's metal molecule technology into water treatment systems effectively mitigates the environmental impact of agricultural runoff, ensuring cleaner water bodies and healthier aquatic ecosystems. This not only addresses immediate pollution problems, but also supports sustainable agricultural practices, balancing productivity with environmental responsibility. Together we can protect our water resources and promote a sustainable future for agriculture and the environment!! 🌱

At NANOGAP, our Metal Molecule (M-M) technology transforms wastewater remediation through enhanced light absorption and radical reactions. Our M-M catalysts, made of metal atom clusters smaller than 1 nm, harness the power of light to drive critical chemical reactions essential for water purification. By absorbing light, these catalysts initiate and sustain radical reactions, leading to significant improvements in water quality. ☀️ Enhanced Light Absorption: The unique structure of our M-M catalysts allows for a powerful dual effect in photocatalysis, with broad spectrum absorption and efficient use of photons providing the energy needed to activate powerful chemical processes. ⚗️ Powerful Radical Reactions: Once activated by light, our M-M catalyze radical reactions very efficiently breaking down contaminants and harmful compounds in the water. These radical reactions are crucial for the efficient and thorough purification of wastewater. By leveraging these advanced oxidation processes, Nanogap is at the forefront of developing more efficient and effective solutions for wastewater treatment, especially badly polluted difficult to treat water. Stay tuned as we delve deeper into the cutting-edge technology driving our innovations!