Review of the Hydrogen Evolution Reaction—A Basic Approach

Ferriday, T.B.; Middleton, Hugh; Kolhe, Mohan Lal

doi:10.3390/en14248535

Cited by 36 publications

(34 citation statements)

References 130 publications

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“…However, it turns out that there are still some key and challenging issues on the road of hydrogen evolution catalyst exploration. [100][101][102][103][104][105][106] The progress of science will not stop in the future. Therefore, cobalt-based catalysts may encounter various difficulties and problems in the field of hydrogen evolution.…”

Section: Challengesmentioning

confidence: 99%

Recent advances in cobalt-based catalysts for efficient electrochemical hydrogen evolution: a review

et al. 2022

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Section: Challengesmentioning

confidence: 99%

Recent advances in cobalt-based catalysts for efficient electrochemical hydrogen evolution: a review

et al. 2022

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“…Ferriday et al explain that in the low coverage of adsorbed hydrogen, an adsorbed hydrogen atom reacts with a proton or water molecule and an electron to create molecular hydrogen and free up one active site. However, at high coverage, there is an increased probability that two hydrogen atoms may adsorb onto neighboring sites, which results in subsequent recombination to form molecular hydrogen and free up two metal sites, 50 which would effectively increase the presence of hydrogen evolution, and thus corrosion.…”

Section: Relative Humidity Responsementioning

confidence: 99%

Development of Flexible Moisture Sensors Based on the Corrosion and Degradation of Conductive Substrates

Cerny

Cheng

Behzadi

et al. 2022

ACS Appl. Electron. Mater.

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Water and moisture sensing are becoming essential features measured in clean energy and transportation applications. In this study, we develop sensors with the ability to detect moisture through two distinct conductive technologies: (1) a change in morphology using water-soluble polymer composite foams and (2) a rust-induced change or resistance change caused by the corrosion of a metal substrate. Five different foam sensors were successfully fabricated, tested, and determined as functional moisture sensors following their time and relative humidity responses. The sensors’ sensitivity was calculated, and a maximum sensitivity of 3.61 kΩ/RH % was achieved. The electrical properties, foam morphologies, and chemical, thermal, and mechanical properties of the foams were measured and compared. The second sensing technology encompasses a magnesium–copper galvanic system which when in contact with water for extended periods of time will corrode (i.e., convert the metal into metal oxide), causing an irreversible change through an increase in resistance, subsequently alerting the user of possible water flooding. The metallic sensors were tested at three different outdoor temperatures (0, 23, and 50 °C) in order to characterize the influence of temperature. They were also tested with a direct force where corrosion was accelerated. Chipless microwave resonators were utilized as platforms for investigation of the performance of the developed sensors. Both technologies presented act as both the substrate and sensing material.

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“…As shown in Figure S16, the desorption energy of NO 2 and NO are 2.45 and 1.83 eV, respectively, indicating that the reaction prefers to proceed to the next step to form *NO and *N. The desorption energy of NH 3 * increased to 0.75 eV, while in alkaline electrolyte, its product is more inclined to ammonium (NH 4 + ) with a negligible desorption obstacle . Obvious higher energy barriers can also be observed for N 2 For the hydrogen evolution reaction, the theoretical results indicate that both Volmer–Heyrovsky and Volmer–Tafel pathway on the perfect surface and the reconstructed surface exhibits large energy barriers …”

mentioning

confidence: 92%

“…58 Obvious higher energy barriers can also be observed for N 2 For the hydrogen evolution reaction, the theoretical results indicate that both Volmer−Heyrovsky and Volmer−Tafel pathway on the perfect surface and the reconstructed surface exhibits large energy barriers. 59 In summary, we have developed a facile method for the preparation of uniform Cu nanodisks of 80 nm in diameter and 7 nm of width. Oxygen gas and HDA were used to control the growth of Cu(111) facet.…”

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confidence: 99%

Surface Reconstruction on Uniform Cu Nanodisks Boosted Electrochemical Nitrate Reduction to Ammonia

Sun

Wang

et al. 2022

ACS Materials Lett.

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The Haber–Bosch (HB) process has provided most of commercial ammonia at the expense of high energy consumption and high CO2 emission. Nitrate electroreduction is showing great potential as an alternative route for the green and scale-up synthesis of ammonia at ambient conditions. However, the performance has lagged due to lack of efficient electrocatalysts. In this work, we present the facile synthesis of uniform Cu nanodisks with exposed (111) facets as highly active electrocatalyst for electrochemical ammonia synthesis, delivering a high ammonia yield of 2.16 mg mg–1 cat h–1 and a maximum Faradaic efficiency of 81.1% at −0.5 V versus a reversible hydrogen electrode (RHE). The remarkable activity is originated from the surface reconstructed triatomic Cu clusters due to the cathodic deoxygenation process. As a result, the reconstructed surface shows enhanced affinity to the adsorption of nitrate ions which undergo successive break of three N–O bonds, followed by subsequent formation of three N–H bonds to finally form NH3. The present study provides the feasible preparation of Cu based advanced catalysts and a unique insight into the mechanism of nitrate electroreduction.

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Review of the Hydrogen Evolution Reaction—A Basic Approach

Cited by 36 publications

References 130 publications

Recent advances in cobalt-based catalysts for efficient electrochemical hydrogen evolution: a review

Recent advances in cobalt-based catalysts for efficient electrochemical hydrogen evolution: a review

Development of Flexible Moisture Sensors Based on the Corrosion and Degradation of Conductive Substrates

Surface Reconstruction on Uniform Cu Nanodisks Boosted Electrochemical Nitrate Reduction to Ammonia

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