Chen Deng scite author profile

SummaryInterspecies electron transfer is a fundamental factor determining the efficiency of anaerobic digestion (AD), which involves syntrophy between fermentative bacteria and methanogens. Direct interspecies electron transfer (DIET) induced by conductive materials can optimize this process offering a significant improvement over indirect electron transfer. Herein, conductive graphene was applied in the AD of protein-derived glycine to establish DIET. The electron-producing reaction via DIET is thermodynamically more favorable and exhibits a more negative Gibbs free energy value (−60.0 kJ/mol) than indirect hydrogen transfer (−33.4 kJ/mol). The Gompertz model indicated that the kinetic parameters exhibited linear correlations with graphene addition from 0.25 to 1.0 g/L, leading to the highest increase in peak biomethane production rate of 28%. Sedimentibacter (7.8% in abundance) and archaea Methanobacterium (71.1%) and Methanosarcina (11.3%) might be responsible for DIET. This research can open up DIET to a range of protein-rich substrates, such as algae.

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A perspective on decarbonizing whiskey using renewable gaseous biofuel in a circular bioeconomy process

Kang

Lin

O’Shea

et al. 2020

Journal of Cleaner Production

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Low concentrations of furfural facilitate biohydrogen production in dark fermentation using Enterobacter aerogenes

et al. 2020

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Chen Deng

Improving gaseous biofuel yield from seaweed through a cascading circular bioenergy system integrating anaerobic digestion and pyrolysis

Improving gaseous biofuel production from seaweed Saccharina latissima: The effect of hydrothermal pretreatment on energy efficiency

Graphene Facilitates Biomethane Production from Protein-Derived Glycine in Anaerobic Digestion

A perspective on decarbonizing whiskey using renewable gaseous biofuel in a circular bioeconomy process

Low concentrations of furfural facilitate biohydrogen production in dark fermentation using Enterobacter aerogenes

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