Elreedy, AhmedAhmedElreedyElsamadony, MohamedMohamedElsamadonyMostafa, AlsayedAlsayedMostafaGescher, JohannesJohannesGescherAbdelaziz, Omar Y.Omar Y.AbdelazizFujii, ManabuManabuFujii2024-12-052024-12-052024-11-15Bioresource Technology 417: 131824 (204-11-15)https://hdl.handle.net/11420/52311Recent research has discussed the positive impacts of metal-based nanoparticles (NPs) on bioprocesses producing either hydrogen (H2) or methane (CH4). The enhancement has been explained by mechanisms such as direct interspecies electron transfer (DIET), metal corrosion, and dissimilatory reduction. Such interactions could induce further benefits, such as controlling oxidation–reduction potential (ORP), mitigating toxicants, promoting enzymatic activity, and altering the microbiome, which have not yet been comprehensively discussed. Factors like metal type, oxidation state, and size of NPs are crucial for their reactivity and corresponding responses. This review discusses how different redox potentials of metals can regulate metabolic pathways and how NPs and their reactive ions can eliminate toxicants (e.g., sulfate) and enhance the activity of intra- and extracellular enzymes. The enrichment of responsive microorganisms in correlation with NPs is further discussed. A better understanding of the multifaceted role of metal-based NPs can guide potential new incorporation strategies to improve bioprocesses.en0960-8524|||1873-29762024ElsevierAnaerobic digestion | Bioenergy | Enzymatic activity | Metal nanoparticles | Microbial dynamics | Toxicants mitigationNatural Sciences and Mathematics::570: Life Sciences, BiologyTechnology::620: EngineeringReview Article10.1016/j.biortech.2024.131824Review Article