The excessive consumption of fossil fuels causes massive emission of CO2, leading to
climate deterioration and environmental pollution. The development of substitutes and …

To assess biohydrogen for future green energy, this review revisited dark fermentation and
microbial electrolysis cells (MECs). Hydrogen evolution rate in mesophilic dark fermentation …

With the rapid development of renewable and sustainable energy, biogas upgrading for
producing high-quality biomethane as an alternative to natural gas has attracted worldwide …

Microbial electrosynthesis (MES) presents a versatile approach for efficiently converting
carbon dioxide (CO2) into valuable products. However, poor electron uptake by the …

The semiconductor material with low bio-toxicity and broad light absorption region is crucial
for semiconductor-bacteria photosynthetic biohybrid systems. Here we introduce the low …

Microbial electrosynthesis (MES) integrated with photocatalytic materials is a novel carbon
dioxide (CO 2) utilization technology with considerable potential to mitigate CO 2 emission …

Making chemicals from the air is a visionary objective that can potentially revolutionise
chemical production. This critical review shows that the essential elements to realise this …

The high metabolic flexibility and biodiversity of microalgae make them promising systems
for the production of chemicals and high-value metabolites to be utilized in various industrial …

Currently, there has been an increase in greenhouse gases, primarily atmospheric CO 2
content, from both anthropogenic and non-anthropogenic sources, leading to global …

Sustainable production of solar-based chemicals via solar-powered bioelectrosynthesis is
crucial for the role of third generation biorefineries in achieving a resilient future. However …