Developing Catalysts Integrated in Gas-Diffusion Electrodes for CO2 Electrolyzers
Conspectus As the demand for a carbon-neutral society grows rapidly, research on CO2
electrolysis has become very active. Many catalysts are reported for converting CO2 into …
electrolysis has become very active. Many catalysts are reported for converting CO2 into …
Artificial carbon assimilation: From unnatural reactions and pathways to synthetic autotrophic systems
Synthetic biology is being increasingly used to establish novel carbon assimilation pathways
and artificial autotrophic strains that can be used in low-carbon biomanufacturing. Currently …
and artificial autotrophic strains that can be used in low-carbon biomanufacturing. Currently …
Flow-electrode capacitive separation of organic acid products and recovery of alkali cations after acidic CO2 electrolysis
Acidic CO2 electrolysis, enhanced by the introduction of alkali cations, presents a strategic
approach for improving carbon efficiency compared to processes conducted in neutral and …
approach for improving carbon efficiency compared to processes conducted in neutral and …
Tandem Acidic CO2 Electrolysis Coupled with Syngas Fermentation: A Two-Stage Process for Producing Medium-Chain Fatty Acids
Y Pu, Y Wang, G Wu, X Wu, Y Lu, Y Yu… - Environmental …, 2024 - ACS Publications
The tandem application of CO2 electrolysis with syngas fermentation holds promise for
achieving heightened production rates and improved product quality. However, the …
achieving heightened production rates and improved product quality. However, the …
Converting CO2 to single-cell protein via an integrated electrocatalytic-biosynthetic system
Boosting CO 2 biotransformation by renewable electrical energy provides a prospective
avenue to reform the biomanufacturing paradigm and achieve a circular carbon economy …
avenue to reform the biomanufacturing paradigm and achieve a circular carbon economy …
Sustainable conversion of carbon dioxide to high-value antioxidant astaxanthin through microbial electrosynthesis-assisted microalgae cultivation
Microbial electrosynthesis (MES) effectively converts carbon dioxide (CO 2) to short
carboxylic acids but has lower efficiency for higher molecular value-added products. This …
carboxylic acids but has lower efficiency for higher molecular value-added products. This …
Underpotential Deposition of 3D Transition Metals: Versatile Electrosynthesis of Single‐Atom Catalysts on Oxidized Carbon Supports
Use of single‐atom catalysts (SACs) has become a popular strategy for tuning activity and
selectivity toward specific pathways. However, conventional SAC synthesis methods require …
selectivity toward specific pathways. However, conventional SAC synthesis methods require …
Coupling of CO2 Electrolysis with Parallel and Semi‐Automated Biopolymer Synthesis – Ex‐Cell and without Downstream Processing
I Dinges, I Depentori, L Gans, D Holtmann… - …, 2024 - Wiley Online Library
Important improvements have been achieved in developing the coupling of electrochemical
CO2 reduction to formate with its subsequent microbial conversion to polyhydroxybutyrate …
CO2 reduction to formate with its subsequent microbial conversion to polyhydroxybutyrate …
Electrical-biological hybrid system for carbon efficient isobutanol production
TR Treece, S Pattanayak, MM Matson, MM Cepeda… - Metabolic …, 2023 - Elsevier
We have developed an electrical-biological hybrid system wherein an engineered
microorganism consumes electrocatalytically produced formate from CO 2 to supplement the …
microorganism consumes electrocatalytically produced formate from CO 2 to supplement the …
Formate‐Mediated Electroenzymatic Synthesis via Biological Cofactor NADH
C Wang, W Dong, P Zhang, Y Ma, Z Han… - Angewandte Chemie …, 2024 - Wiley Online Library
Synthetic biohybrid systems by coupling artificial system with nature's machinery may offer a
disruptive solution to address the global energy crisis. We developed a versatile …
disruptive solution to address the global energy crisis. We developed a versatile …