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• Comment: Just about every LLM tell is present in this draft article. Please rewrite (by a human), paying attention to WP:MOS, and we can consider a resubmission. WeirdNAnnoyed (talk) 22:30, 1 May 2026 (UTC)

Oxidative polymerization is a chemical process in which monomeric units, typically phenols, amines, or thiols, are linked into high-molecular-weight polymers through an oxidation reaction. This process can occur via chemical oxidants, electrochemical means, or enzymatic catalysis. In soil chemistry, it is a fundamental mechanism for the formation of humic substances and the stabilization of natural organic matter.^[1]

The reaction initiation typically involves the removal of a hydrogen atom or an electron from a precursor molecule, such as a phenol or a quinone. This creates a highly reactive free radical intermediate. These radicals undergo spontaneous coupling to form dimers, which then continue to react to form oligomers and eventually complex, cross-linked polymers.^[2]

The rate and path of polymerization are heavily influenced by the presence of catalysts:

• Biotic Catalysis: Extracellular enzymes such as laccases, peroxidases, and tyrosinases secreted by fungi and bacteria facilitate the oxidation of organic fragments in the environment.
• Abiotic Catalysis: Reactive mineral surfaces, particularly iron (Fe) and manganese (Mn) oxides, can act as electron acceptors, triggering polymerization without biological intervention.^[3]

Oxidative polymerization is a key component of the humification process, transforming simple biological molecules into stable environmental polymers.

By converting easily degradable molecules into complex, recalcitrant structures, oxidative polymerization plays a vital role in the carbon cycle. These polymers are more resistant to microbial decomposition, allowing carbon to be stored in the pedosphere for centuries.

This process can lead to "bound residue" formation, where organic pollutants (like pesticides or phenols) are incorporated into the humic backbone via oxidative coupling, effectively detoxifying them by reducing their bioavailability.^[3]

Synthetically, oxidative polymerization is utilized to produce conductive polymers. Notable examples include:

• Polyaniline (PANI)
• Polypyrrole (PPy)
• Polythiophene

• Humic substances
• Polymerization
• Soil organic matter
• Biogeochemistry

Category:Soil chemistry Category:Organic chemistry