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An attractive strategy for sustainable fuels manufacturing in a carbon-neutrality age
by Staff Writers
Dalian, China (SPX) Dec 17, 2021

Solid oxide electrolysis cell based one-carbon molecules conversion might be promising toward sustainable fuels production in the net-zero emission society. This review focuses on recent progress in C1 molecule conversion in solid oxide electrolysis cells, as well as the challenges and prospects of electrolysis technologies for sustainable fuel production in the near future.

Even though the 26th UN Climate Change Conference of the Parties (COP26) concluded in a storm of controversies, the world's growing energy crisis and environmental pollution (e.g., the global 36.7 billion metric tons of CO2 emission per year) are realities that scientists and human society have to confront.

As a result, figuring out how to employ low-carbon technologies, such as electrochemical technologies, to achieve energy conversion and systematic carbon reduction is becoming increasingly critical.

Due to its high energy efficiency (>75%) and high temperature toxicity resistance potential, the solid oxide electrolysis cell (SOEC) has been gradually applied in the process of electrolysis of C1 molecules such as carbon dioxide (CO2) and methane (CH4) into value-added renewable fuels such as syngas, ethylene, and others.

Many significant progresses have been achieved in the past decades. However, the unclear reaction mechanism, poor durability, and the prospect of industrialization are calling for more efforts on the development of SOEC-based C1 molecules conversion.

In a new review published in Chinese Journal of Catalysis, the research team led by Prof. Gengfeng Zheng from Fudan University reviewed the progresses in this field. Based on an introduction of SOEC technology, the recent three years' work on C1-to-fuels conversion based on solid oxide electrolysis cell is summarized.

The following three reaction systems are mainly introduced from the perspectives of system characteristics and research challenges:

(1) Carbon dioxide electrolysis system and characteristics, including the recent progress, the advantages and disadvantages of high temperature carbon dioxide electrolysis;

(2) Carbon dioxide/steam co-electrolysis system and its characteristics, including a series of catalyst materials and mechanism researches;

(3) Methane conversion system and its characteristics, including recent work, the challenges and prospects in the future of methane system.

Moreover, authors also share their thoughts on the future research directions toward SOEC-based C1 conversion. In detail, they proposed the following four aspects:

(1) cost and feasibility analysis;

(2) theoretical calculations and operando characterizations;

(3) triple-phase-boundary modification and materials research; and

(4) expansion of new reactants and systems. The content of the review is specific, and mainly focuses on the system and strategic research on SOEC-based C1-to-fuels conversion, which can be a good guide for those interested in C1 chemistry and electrochemistry.

Research Report: "Electrochemical conversion of C1 molecules to sustainable fuels in solid oxide electrolysis cells"


Related Links
Dalian Institute of Chemical Physics
Powering The World in the 21st Century at Energy-Daily.com


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ENERGY TECH
NTU Singapore scientists develop biodegradable printed paper batteries
Singapore (SPX) Dec 15, 2021
Scientists from Nanyang Technological University, Singapore (NTU Singapore) have developed paper-thin biodegradable zinc batteries that could one day become an environmentally sustainable option for powering flexible and wearable electronic systems. The NTU Singapore-developed zinc batteries are made up of electrodes (through which the electrical current leaves or enters the battery) screen-printed on to both sides of a piece of cellulose paper that has been reinforced with hydrogel. Once th ... read more

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