Xukai Lu scite author profile

Limited availability of fossil energy and serious environmental pollution have caused the emergence of bio‐oil, which can serve as an alternative and promising green energy source. However, bio‐oil generated from the rapid pyrolysis of biomass cannot be utilized immediately owing to its corrosivity, instability, and low heating value. Herein, the electrocatalytic hydrogenation (ECH) process towards bio‐oil upgrading is reviewed. Specifically, the ECH integrates the advantages of mild operating conditions, no petrochemically derived hydrogen and good controllability. The influence of different factors on the conversion of bio‐oil components and product selectivity in the ECH process are presented comprehensively. In addition, various reaction mechanisms are discussed in the designed ECH systems. Finally, some challenges need to be further overcome for real bio‐oil reduction in the ECH process: exploration of efficient multifunctional electrocatalysts for specific bio‐oil components and determination of the dominant steps in the complicated reaction path network.

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Municipal solid waste derived biochars for wastewater treatment: Production, properties and applications

et al. 2022

Resources, Conservation and Recycling

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Enhanced norfloxacin degradation by visible-light-driven Mn3O4/γ-MnOOH photocatalysis under weak magnetic field

et al. 2021

Science of The Total Environment

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Xukai Lu

Remediation of antibiotic wastewater by coupled photocatalytic and persulfate oxidation system: A critical review

Catalytic membrane-based oxidation-filtration systems for organic wastewater purification: A review

Upgrading of Bio‐Oil Model Compounds and Bio‐Crude into Biofuel by Electrocatalysis: A Review

Municipal solid waste derived biochars for wastewater treatment: Production, properties and applications

Enhanced norfloxacin degradation by visible-light-driven Mn3O4/γ-MnOOH photocatalysis under weak magnetic field

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