What question did this study set out to answer?

This review aims to explore the conversion of plastic waste into hydrogen and carbon nanomaterials through microwave-assisted pyrolysis.

May 16, 2026

Catalytic Microwave Pyrolysis of Plastic Waste for Hydrogen and Nanocarbons

Key Points

This review aims to explore the conversion of plastic waste into hydrogen and carbon nanomaterials through microwave-assisted pyrolysis.
Evaluated hydrogen evolution and carbon formation pathways in pyrolysis processes.
Analyzed catalyst functions and interactions with absorbers in microwave systems.
Assessed process parameters, heating uniformity, and scale-up challenges.
Microwave pyrolysis effectively generates hydrogen-rich gas and carbon nanomaterials.
Identified critical factors affecting catalyst stability and material processing.
Highlighted the need for comprehensive techno-economic and environmental assessments for practical deployment.

Abstract

ABSTRACT Microwave‐assisted pyrolysis offers a promising route for converting plastic waste into hydrogen‐rich gas and carbon nanomaterials. This review examines hydrogen evolution, carbon‐forming pathways, catalyst functions, absorber‐support interactions, and reactor constraints in microwave systems. It also assesses process parameters, localized heating, field nonuniformity, and scale‐up challenges. Overall, the process supports circular plastic valorization, but practical deployment depends on catalyst stability, realistic handling of mixed feeds, and transparent techno‐economic and environmental evaluation.

Catalytic Microwave Pyrolysis of Plastic Waste for Hydrogen and Nanocarbons

Key Points

Abstract

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