{"id":30189,"date":"2025-12-18T09:00:00","date_gmt":"2025-12-18T09:00:00","guid":{"rendered":"https:\/\/cit.upc.edu\/portfolio-item\/un-catalitzador-per-obtenir-productes-quimics-industrials-a-partir-de-gasos-d-efecte-hivernacle\/"},"modified":"2026-04-22T12:17:58","modified_gmt":"2026-04-22T12:17:58","slug":"a-catalyst-for-obtaining-industrial-chemical-products-from-greenhouse-gases","status":"publish","type":"portfolio","link":"https:\/\/cit.upc.edu\/en\/portfolio-item\/a-catalyst-for-obtaining-industrial-chemical-products-from-greenhouse-gases\/","title":{"rendered":"A catalyst for obtaining industrial chemical products from greenhouse gases"},"content":{"rendered":"\n

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18\/12\/2025<\/p>
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A research team from the UPC, in collaboration with the company B. Braun Surgical, has created a ceramic and biocompatible catalyst that captures greenhouse gases and transforms them into useful chemical products in a more sustainable way and at a lower cost than current technologies.<\/h4>

The technology has successfully passed the pilot phase through joint projects with companies from different sectors.<\/h4>
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Researchers from the Innovation in Materials and Molecular Engineering – Biomaterials for Regenerative Therapies (IMEM-BRT) research group at the Universitat Polit\u00e8cnica de Catalunya (UPC), in collaboration with the R&D team of the company B. Braun Surgical, have developed <\/span>a technology based on Permanently Polarised Hydroxyapatite, a ceramic and biocompatible material that acts as a catalyst. The main innovation lies in its ability to capture greenhouse gases, such as carbon dioxide (CO\u2082), and transform them into useful chemical products, such as ethanol or urea, in a more sustainable way and at a lower cost than existing technologies.<\/span><\/p>

Carbon dioxide is considered the main cause of global warming and, therefore, reducing its emissions is both an academic challenge and a social necessity. The main problem, explains Sans, is that \u201cit is a very stable molecule and, without a catalyst, a great deal of energy is required to break it. This means that, during the process, more CO\u2082 ends up being emitted than is actually reduced.\u201d The challenge, therefore, is first to find a way to break this molecule and then to reorganise it so that other products of chemical or industrial interest can be generated and reintroduced into society.<\/span><\/p>

Today, catalysts already exist that can capture and transform this gas, but they still require high pressures and extreme temperatures. In addition, they are made from noble metals such as gold or platinum, which are very expensive, often preventing this technology from being scaled up for industrial use. In contrast, the technology of Permanently Polarised Hydroxyapatitef is based on a material that is abundant in nature\u2014hydroxyapatite, which is present in our bones. Thanks to its ability to absorb CO\u2082 emissions and its catalytic properties, it enables chemical reactions to take place under mild conditions: at atmospheric pressure and temperatures ranging from 9 \u00b0C to 150 \u00b0C. This technology is versatile and can be applied to industrial processes that generate significant CO\u2082 emissions. One example would be implementing the catalyst at the outlet of industrial chimneys in order to reduce direct emissions into the atmosphere while also recovering products such as ethanol, which can be used as a biofuel.<\/span><\/p>

Impact<\/h4>

So far, the technology has been successfully tested at the Barcelona East School of Engineering (EEBE), on the Diagonal-Bes\u00f2s Campus, and has passed the pilot phase in joint projects with major companies. One example is the Nuclis project, funded by ACCI\u00d3 and coordinated by the company Aquambiente, Circular Economy Solutions S.L.U. (ACES), part of the Veolia Group, in which the use of the catalyst in an incineration plant in Matar\u00f3 has enabled a 35% reduction in CO\u2082 emissions. Another case involved the high conversion of this gas into different products, developed jointly with the company VISCOFAN.<\/span><\/p>

The catalyst developed within the framework of the project is affordable and has no environmental impact, which could transform the way companies manage gaseous waste, allowing them to reduce their carbon footprint while at the same time generating economic value.<\/span><\/p>

The project has received the 15th UPC Research Valorisation Award,\u00a0 by the Social Council with the support of Fractus and the Fractus UPC Deep Tech Hub, as the best market-applied invention.<\/span><\/p>
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