Advancements in catalyst design for biomass-derived bio-oil upgrading to sustainable biojet fuel: a comprehensive review
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Date
2025
Journal Title
Journal ISSN
Volume Title
Publisher
John Wiley and Sons Inc
Abstract
Biomass‐derived bio‐oil, produced through thermochemical methods such as pyrolysis and hydrothermal liquefaction, has immense potential as a renewable feedstock for aviation fuels because of its renewable nature and the potential to significantly reduce greenhouse gas emissions. The development of biojet fuel from renewable sources, such as biomass, is a critical step toward achieving global energy sustainability and reducing the carbon footprint of the aviation industry. This review aims to provide a comprehensive analysis of the advances in catalyst design to upgrade biomass‐derived oil to biojet fuel. The review will also explore the mechanisms by which these catalysts operate, the optimization of catalytic processes, and the performance metrics used to evaluate their efficiency. Recent case studies demonstrate the effectiveness of catalyst design in enabling efficient and sustainable conversion of biomass‐based bio‐oil into high‐quality fuels, advancing the viability of renewable energy sources in aviation and beyond.
Description
Keywords
Bio-Oil, Catalyst Design, Biomass-Derived, Sustainable Biojet Fuel, Aviation Fuels
Citation
Jideani, T. et al. (2025) Advancements in Catalyst Design for Biomass‐Derived Bio‐Oil Upgrading to Sustainable Biojet Fuel: A Comprehensive Review. ChemistryOpen (Weinheim). [Online] e202500353.