Microbial Electrosynthesis

Key Features

Microbial electrosynthesis (MES) is a bioelectrochemical system that utilizes chemolithoautotrophic microbes to convert **CO₂ into valuable chemicals**, contributing to carbon capture and sustainable bioprocessing. By optimizing **CO₂ delivery and electron transfer**, this system enhances microbial electrosynthesis efficiency for industrial applications.

Key Research Areas:

CO₂ Bioconversion & Chemical Production:
- Microbial conversion of CO₂ into acetate and methane.
- Enhancing CO₂ reduction efficiency in microbial electrosynthesis (MES) systems.
Innovative Electrode Design:
- Utilizing porous nickel fiber cathodes for improved CO₂ delivery.
- Enhancing microbial growth and electron transfer with carbon nanotube-coated electrodes.
System Optimization & Scalability:
- Optimizing CO₂ flow rates for improved conversion efficiency.
- Exploring renewable energy sources, such as solar, to power the MES system.

By integrating **bioelectrochemical processes with CO₂ reduction**, the system contributes to **scalable, energy-efficient solutions** for carbon-neutral chemical production and industrial CO₂ mitigation.