Outlook The maximisation of BTX yield from waste plastics pyrolysis vapours represents a milestone achievement, underlining the synergy between the ICCP process and accessible zeolites. Further development will focus on understanding the nature of the material, stability testing, and catalyst shaping. These efforts aim to optimise man- ufacturing, strengthen the business case, and facilitate commercialisation. BioBTX aims to strategically use gathered insights and integrate catalyst design with optimisation of the plant currently being installed. Zeopore continues to commer- cialise its materials across different configurations of waste plastics conversion, such as catalytic pyrolysis and pyoil upgrading. These efforts involve other core challenges, such as increasing the conversion in catalytic pyrolysis and enhancing catalyst resistance to impurities. References 1 M. L. Diamond et al., Exploring the planetary boundary for chemical pollution, Environment International , 78, 2015, 8-15. 2 M. Nicolas and J. Bergwerff, Chemical recycling of waste plastics requires advanced catalysis to reduce energy intensity and technical complexity, PTQ Q1 2026 , pp 11-15. 3 M. Van Akker et al., 2025, Full utilization of hard-to-recycle mixed plastic waste by conversion toward pyrolysis oil and BTX aromatics on a pilot scale. Energy & Fuels, 6438-6451. 4 D. Serrano et al., Developing advanced catalysts for the conversion of polyolefinic waste plastics into fuels and chemicals, ACS Catal . 2012, 2, 9, 1924-1941.
5 D. Verboekend, Enhancing C 8 + aromatics conversion, Hydrocarbon Engineering , November 2024. 6 B. Santos, BioBTX to build world’s first renewable aromatics plant, Plastic News, 2024. https://www.sustainableplastics.com/news/ biobtx-build-worlds-first-renewable-aromatics-plant 7 M. F. M. Post, J. van Amstel, H. W. Kouwenhoven, in Proceedings of the Sixth International Zeolite Conference, Eds D. Olson and A. Bisio, Butterworths and Co Ltd, University Press, Cambridge, UK, 1984, 517-534. 8 D. Verboekend, in Nanotechnology in Catalysis: Applications in the Chemical Industry, Energy Development, and Environment Protection , 2017 Wiley-VCH Verlag GmbH & Co. KGaA, 275-277. 9 D. Verboekend, Maximising hydrocracker performance and middle distillate production, PTQ Catalysis 2025, 53-57. 10 D. Verboekend and M. d’Halluin, Benefits of simultaneous mesop - orisation/metal incorporation, PTQ Catalysis 2023, 55-58. 11 Y. Zheng et al., Journal of Analytical and Applied Pyrolysis, 126, 2017, 169-179, K. Qian et al., Fuel 357, 2024, 129,781. 12 C. M. Lok et al., Renewable and Sustainable Energy Reviews , 113, 2019, 109,248. 13 Guisnet et al., Aromatization of short chain alkanes on zeolite cata- lysts, Applied Catalysis A: General, 1992, 89, 1-30. 14 D. Verboekend, Economic and environmental versatile technologies in refining, PTQ Q4 2025 , 45-48. Danny Verboekend is Chief Scientific Officer at Zeopore Technologies NV. Judy El Jablaoui is Account Manager at Zeopore Technologies NV. Kurt Du Mong is Chief Executive Officer at Zeopore Technologies NV. Diana Ciocla is a Lead Catalyst Development at BioBTX B.V. Niels J. Schenk is Director Research & Development at BioBTX B.V.
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