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Home > Press > Catalyzing environmental cleanup: A highly active and selective molecular catalyst and electrified membrane: Innovative electrochemical catalyst breaks down trichloroethylene pollutants at unprecedented rate

The CoPc/CNT catalyst decomposes TCE with nearly 100% Faradaic efficiency while the filtration device achieves a 95% removal rate in simulated water samples.

Credit
Hailiang Wang, Yale University
The CoPc/CNT catalyst decomposes TCE with nearly 100% Faradaic efficiency while the filtration device achieves a 95% removal rate in simulated water samples. Credit Hailiang Wang, Yale University

Abstract:
Some chemicals create environmental problems; others, fortunately, can help clean them up.

Catalyzing environmental cleanup: A highly active and selective molecular catalyst and electrified membrane: Innovative electrochemical catalyst breaks down trichloroethylene pollutants at unprecedented rate

New Haven, CT | Posted on September 13th, 2024

Chemists from Yale University and their colleagues have developed an electrochemical catalyst and membrane that offers an efficient and sustainable way to treat water contaminated with trichloroethylene (TCE), a common and persistent environmental pollutant. Their findings highlight the potential for advanced electrochemical treatments in environmental remediation and open the door for further innovations in the field.



Their results were published in Carbon Future on September 5.



TCE is a common industrial solvent or cleaning agent used in refrigerants, dry cleaning, and metal and electronic degreasing. However, TCE’s toxic properties can cause harm to multiple organs and induce cancer. Water contamination by TCE is not uncommon.



While bioremediation was one of the first methods used to tackle TCE pollution, it is often slow and generates byproducts that are even more toxic. Chemical remediation is faster and more efficient but often requires strong chemicals and does not completely decompose TCE. Consequently, electrochemical treatment, which uses electrical currents to decompose contaminants, is emerging as a more effective and sustainable solution for TCE remediation.



“Electrochemical methods have shown promise for treating water contaminated by chlorinated volatile organic compounds, but efficiently removing and repurposing TCE has been a challenge due to the lack of effective catalysts,” said Hailiang Wang, a professor at Yale University’s Department of Chemistry and Energy Sciences Institute and the lead corresponding author of this study.



Responding to this need, the research team developed a catalyst composed of cobalt phthalocyanine (CoPc) molecules mounted on multiwalled carbon nanotubes (CNTs). This catalyst breaks down TCE at record rates, turning it into ethylene and chloride ions with nearly 100% Faradaic efficiency. This means that almost all the electrical current is used to convert TCE into harmless products without generating harmful byproducts, making it promising for practical applications.



“The key to our success is the first electron transfer step, which doesn’t involve protons, and the single site nature of our catalyst” said Yuanzuo Gao, a graduate student in Wang’s group and the first author of this study. “These helped us avoid the hydrogen evolution reaction and thereby promote TCE dechlorination.”



The hydrogen evolution reaction is a side reaction that consumes electrons that could otherwise be used to break down pollutants, diminishing the current efficiency of the process.



To enhance the practical application of this catalyst, the team incorporated CoPc molecules into an electrified membrane made from reduced graphene oxide (rGO), a modified form of graphene known for its strength, lightweight nature and high conductivity. This membrane filtration device achieved 95% removal of TCE from simulated water samples that mimic actual water treatment conditions, marking a significant advancement in the technology’s practical use.



This study underscores the potential of advanced electrochemical methods to address complex environmental challenges and drive progress in water treatment and industrial pollution control.



“By combining CoPc molecules with CNT and rGO supports, we have created highly selective and active electrocatalysts for the treatment of TCE in water,” Gao said.

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About Tsinghua University Press
About Carbon Future

Carbon Future is an open access, peer-reviewed and international interdisciplinary journal, published by Tsinghua University Press and exclusively available via SciOpen. Carbon Future reports carbon-related materials and processes, including catalysis, energy conversion and storage, as well as low carbon emission process and engineering. Carbon Future will publish Research Articles, Reviews, Minireviews, Highlights, Perspectives, and News and Views from all aspects concerned with carbon. Carbon Future will publish articles that focus on, but not limited to, the following areas: carbon-related or -derived materials, carbon-related catalysis and fundamentals, low carbon-related energy conversion and storage, low carbon emission chemical processes.

About SciOpen

SciOpen is an open access resource of scientific and technical content published by Tsinghua University Press and its publishing partners. SciOpen provides end-to-end services across manuscript submission, peer review, content hosting, analytics, identity management, and expert advice to ensure each journal’s development. By digitalizing the publishing process, SciOpen widens the reach, deepens the impact, and accelerates the exchange of ideas.

For more information, please click here

Contacts:
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Mengdi Li
Tsinghua University Press

Office: 86-108-347-0580
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Hailiang Wang
Yale University

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