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      Metal‐organic frameworks‐derived novel nanostructured electrocatalysts for oxygen evolution reaction

      1 , 1 , 1 , 2
      Carbon Energy
      Wiley

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          Electrocatalysis for the oxygen evolution reaction: recent development and future perspectives

          We review the fundamental aspects of metal oxides, metal chalcogenides and metal pnictides as effective electrocatalysts for the oxygen evolution reaction. There is still an ongoing effort to search for sustainable, clean and highly efficient energy generation to satisfy the energy needs of modern society. Among various advanced technologies, electrocatalysis for the oxygen evolution reaction (OER) plays a key role and numerous new electrocatalysts have been developed to improve the efficiency of gas evolution. Along the way, enormous effort has been devoted to finding high-performance electrocatalysts, which has also stimulated the invention of new techniques to investigate the properties of materials or the fundamental mechanism of the OER. This accumulated knowledge not only establishes the foundation of the mechanism of the OER, but also points out the important criteria for a good electrocatalyst based on a variety of studies. Even though it may be difficult to include all cases, the aim of this review is to inspect the current progress and offer a comprehensive insight toward the OER. This review begins with examining the theoretical principles of electrode kinetics and some measurement criteria for achieving a fair evaluation among the catalysts. The second part of this review acquaints some materials for performing OER activity, in which the metal oxide materials build the basis of OER mechanism while non-oxide materials exhibit greatly promising performance toward overall water-splitting. Attention of this review is also paid to in situ approaches to electrocatalytic behavior during OER, and this information is crucial and can provide efficient strategies to design perfect electrocatalysts for OER. Finally, the OER mechanism from the perspective of both recent experimental and theoretical investigations is discussed, as well as probable strategies for improving OER performance with regards to future developments.
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            Design of electrocatalysts for oxygen- and hydrogen-involving energy conversion reactions.

            A fundamental change has been achieved in understanding surface electrochemistry due to the profound knowledge of the nature of electrocatalytic processes accumulated over the past several decades and to the recent technological advances in spectroscopy and high resolution imaging. Nowadays one can preferably design electrocatalysts based on the deep theoretical knowledge of electronic structures, via computer-guided engineering of the surface and (electro)chemical properties of materials, followed by the synthesis of practical materials with high performance for specific reactions. This review provides insights into both theoretical and experimental electrochemistry toward a better understanding of a series of key clean energy conversion reactions including oxygen reduction reaction (ORR), oxygen evolution reaction (OER), and hydrogen evolution reaction (HER). The emphasis of this review is on the origin of the electrocatalytic activity of nanostructured catalysts toward the aforementioned reactions by correlating the apparent electrode performance with their intrinsic electrochemical properties. Also, a rational design of electrocatalysts is proposed starting from the most fundamental aspects of the electronic structure engineering to a more practical level of nanotechnological fabrication.
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              Ultrathin metal–organic framework nanosheets for electrocatalytic oxygen evolution

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                Author and article information

                Contributors
                Journal
                Carbon Energy
                Carbon Energy
                Wiley
                2637-9368
                2637-9368
                March 2021
                November 04 2020
                March 2021
                : 3
                : 1
                : 66-100
                Affiliations
                [1 ]Department of Transdisciplinary Studies Graduate School of Convergence Science and Technology Seoul National University Suwon‐si Gyeonggi‐do Republic of Korea
                [2 ]Advanced Institutes of Convergence Technology Seoul National University Suwon‐si Gyeonggi‐do Republic of Korea
                Article
                10.1002/cey2.80
                84caa0b4-f9d2-4d4c-b22a-5dcaea70d276
                © 2021

                http://creativecommons.org/licenses/by-nc-nd/4.0/

                http://doi.wiley.com/10.1002/tdm_license_1.1

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