Surface hydrogen migration significantly promotes electroreduction of acetonitrile to ethylamine

The electrochemical reduction of acetonitrile (AN) to ethylamine (EA) is an attractive yet challenging process, primarily due to the competing hydrogen evolution reaction (HER). This study demonstrates the ability to halt the HER at Volmer step, where protons migrate to the unsaturated bond of AN on...

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Published inNature communications Vol. 16; no. 1; pp. 2236 - 10
Main Authors Tang, Yulong, Li, Jiejie, Lin, Yichao, Cheng, Moxing, Wang, Shuibo, Tian, Ziqi, Zhou, Junjie, Zhang, Haolei, Wang, Yunan, Chen, Liang
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 06.03.2025
Nature Publishing Group
Nature Portfolio
Subjects
140/131
140/133
140/146
147/135
147/143
639/301/299
639/638/161
639/638/161/886
Acetonitrile
Chemical reduction
Copper
Copper oxides
Electrochemistry
Electron transfer
Heterostructures
Humanities and Social Sciences
Hydrogen
Hydrogen evolution reactions
Hydrogenation
multidisciplinary
Organic chemistry
Protons
Science
Science (multidisciplinary)
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Abstract The electrochemical reduction of acetonitrile (AN) to ethylamine (EA) is an attractive yet challenging process, primarily due to the competing hydrogen evolution reaction (HER). This study demonstrates the ability to halt the HER at Volmer step, where protons migrate to the unsaturated bond of AN on a self-supported CuO@Cu heterostructure. The CuO@Cu catalyst exhibits nearly 100% Faradaic efficiency (FE) over the entire range of potentials tested from −0.1 to −0.4 V vs. RHE, demonstrating remarkable stability over 1000 h at a constant current density of 0.2 A cm −2 . CuO is identified as the active component driving the reaction, while the metallic Cu facilitates efficient electron transfer. Theoretical simulations and experimental evidences indicate that a synergistic hydrogenation process contributes to the AN reduction reaction (ARR), which involves both surface hydrogen migration and proton addition from solution. This study provides an insight into understanding of ARR process, and suggests an efficient strategy to enhance the electrochemical hydrogenation of organic molecules by regulating the Volmer step. The competing hydrogen evolution reaction (HER) presents a major challenge in achieving the selective acetonitrile reduction reaction (ARR) to ethylamine. Here, the authors report halting HER at the Volmer step on a CuO@Cu heterostructure, significantly promoting the selective ARR.
AbstractList The electrochemical reduction of acetonitrile (AN) to ethylamine (EA) is an attractive yet challenging process, primarily due to the competing hydrogen evolution reaction (HER). This study demonstrates the ability to halt the HER at Volmer step, where protons migrate to the unsaturated bond of AN on a self-supported CuO@Cu heterostructure. The CuO@Cu catalyst exhibits nearly 100% Faradaic efficiency (FE) over the entire range of potentials tested from -0.1 to -0.4 V vs. RHE, demonstrating remarkable stability over 1000 h at a constant current density of 0.2 A cm . CuO is identified as the active component driving the reaction, while the metallic Cu facilitates efficient electron transfer. Theoretical simulations and experimental evidences indicate that a synergistic hydrogenation process contributes to the AN reduction reaction (ARR), which involves both surface hydrogen migration and proton addition from solution. This study provides an insight into understanding of ARR process, and suggests an efficient strategy to enhance the electrochemical hydrogenation of organic molecules by regulating the Volmer step.
The electrochemical reduction of acetonitrile (AN) to ethylamine (EA) is an attractive yet challenging process, primarily due to the competing hydrogen evolution reaction (HER). This study demonstrates the ability to halt the HER at Volmer step, where protons migrate to the unsaturated bond of AN on a self-supported CuO@Cu heterostructure. The CuO@Cu catalyst exhibits nearly 100% Faradaic efficiency (FE) over the entire range of potentials tested from -0.1 to -0.4 V vs. RHE, demonstrating remarkable stability over 1000 h at a constant current density of 0.2 A cm-2. CuO is identified as the active component driving the reaction, while the metallic Cu facilitates efficient electron transfer. Theoretical simulations and experimental evidences indicate that a synergistic hydrogenation process contributes to the AN reduction reaction (ARR), which involves both surface hydrogen migration and proton addition from solution. This study provides an insight into understanding of ARR process, and suggests an efficient strategy to enhance the electrochemical hydrogenation of organic molecules by regulating the Volmer step.The electrochemical reduction of acetonitrile (AN) to ethylamine (EA) is an attractive yet challenging process, primarily due to the competing hydrogen evolution reaction (HER). This study demonstrates the ability to halt the HER at Volmer step, where protons migrate to the unsaturated bond of AN on a self-supported CuO@Cu heterostructure. The CuO@Cu catalyst exhibits nearly 100% Faradaic efficiency (FE) over the entire range of potentials tested from -0.1 to -0.4 V vs. RHE, demonstrating remarkable stability over 1000 h at a constant current density of 0.2 A cm-2. CuO is identified as the active component driving the reaction, while the metallic Cu facilitates efficient electron transfer. Theoretical simulations and experimental evidences indicate that a synergistic hydrogenation process contributes to the AN reduction reaction (ARR), which involves both surface hydrogen migration and proton addition from solution. This study provides an insight into understanding of ARR process, and suggests an efficient strategy to enhance the electrochemical hydrogenation of organic molecules by regulating the Volmer step.
The electrochemical reduction of acetonitrile (AN) to ethylamine (EA) is an attractive yet challenging process, primarily due to the competing hydrogen evolution reaction (HER). This study demonstrates the ability to halt the HER at Volmer step, where protons migrate to the unsaturated bond of AN on a self-supported CuO@Cu heterostructure. The CuO@Cu catalyst exhibits nearly 100% Faradaic efficiency (FE) over the entire range of potentials tested from −0.1 to −0.4 V vs. RHE, demonstrating remarkable stability over 1000 h at a constant current density of 0.2 A cm −2 . CuO is identified as the active component driving the reaction, while the metallic Cu facilitates efficient electron transfer. Theoretical simulations and experimental evidences indicate that a synergistic hydrogenation process contributes to the AN reduction reaction (ARR), which involves both surface hydrogen migration and proton addition from solution. This study provides an insight into understanding of ARR process, and suggests an efficient strategy to enhance the electrochemical hydrogenation of organic molecules by regulating the Volmer step. The competing hydrogen evolution reaction (HER) presents a major challenge in achieving the selective acetonitrile reduction reaction (ARR) to ethylamine. Here, the authors report halting HER at the Volmer step on a CuO@Cu heterostructure, significantly promoting the selective ARR.
The electrochemical reduction of acetonitrile (AN) to ethylamine (EA) is an attractive yet challenging process, primarily due to the competing hydrogen evolution reaction (HER). This study demonstrates the ability to halt the HER at Volmer step, where protons migrate to the unsaturated bond of AN on a self-supported CuO@Cu heterostructure. The CuO@Cu catalyst exhibits nearly 100% Faradaic efficiency (FE) over the entire range of potentials tested from −0.1 to −0.4 V vs. RHE, demonstrating remarkable stability over 1000 h at a constant current density of 0.2 A cm−2. CuO is identified as the active component driving the reaction, while the metallic Cu facilitates efficient electron transfer. Theoretical simulations and experimental evidences indicate that a synergistic hydrogenation process contributes to the AN reduction reaction (ARR), which involves both surface hydrogen migration and proton addition from solution. This study provides an insight into understanding of ARR process, and suggests an efficient strategy to enhance the electrochemical hydrogenation of organic molecules by regulating the Volmer step.The competing hydrogen evolution reaction (HER) presents a major challenge in achieving the selective acetonitrile reduction reaction (ARR) to ethylamine. Here, the authors report halting HER at the Volmer step on a CuO@Cu heterostructure, significantly promoting the selective ARR.
Abstract The electrochemical reduction of acetonitrile (AN) to ethylamine (EA) is an attractive yet challenging process, primarily due to the competing hydrogen evolution reaction (HER). This study demonstrates the ability to halt the HER at Volmer step, where protons migrate to the unsaturated bond of AN on a self-supported CuO@Cu heterostructure. The CuO@Cu catalyst exhibits nearly 100% Faradaic efficiency (FE) over the entire range of potentials tested from −0.1 to −0.4 V vs. RHE, demonstrating remarkable stability over 1000 h at a constant current density of 0.2 A cm−2. CuO is identified as the active component driving the reaction, while the metallic Cu facilitates efficient electron transfer. Theoretical simulations and experimental evidences indicate that a synergistic hydrogenation process contributes to the AN reduction reaction (ARR), which involves both surface hydrogen migration and proton addition from solution. This study provides an insight into understanding of ARR process, and suggests an efficient strategy to enhance the electrochemical hydrogenation of organic molecules by regulating the Volmer step.
ArticleNumber 2236
Author Tian, Ziqi
Lin, Yichao
Chen, Liang
Tang, Yulong
Cheng, Moxing
Wang, Shuibo
Zhang, Haolei
Li, Jiejie
Zhou, Junjie
Wang, Yunan
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Snippet The electrochemical reduction of acetonitrile (AN) to ethylamine (EA) is an attractive yet challenging process, primarily due to the competing hydrogen...
Abstract The electrochemical reduction of acetonitrile (AN) to ethylamine (EA) is an attractive yet challenging process, primarily due to the competing...
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SubjectTerms 140/131
140/133
140/146
147/135
147/143
639/301/299
639/638/161
639/638/161/886
Acetonitrile
Chemical reduction
Copper
Copper oxides
Electrochemistry
Electron transfer
Heterostructures
Humanities and Social Sciences
Hydrogen
Hydrogen evolution reactions
Hydrogenation
multidisciplinary
Organic chemistry
Protons
Science
Science (multidisciplinary)
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Title Surface hydrogen migration significantly promotes electroreduction of acetonitrile to ethylamine
URI https://link.springer.com/article/10.1038/s41467-025-57462-w
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