2020
DOI: 10.1038/s41467-020-18182-5
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Single atom catalysis: a decade of stunning progress and the promise for a bright future

Abstract: Controlling the hybridization of single atoms in suitable host materials opens unique opportunities for catalyst design, but equally faces many challenges. Here, we highlight emerging directions from the last, highly productive, decade in single-atom catalysis and identify frontiers for future research. Origins and evolution of single-atom catalysis The isolation of elements as atoms in chemically-distinct substances played fundamental catalytic roles, for example, in metalloenzymes, organometallic complexes, … Show more

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Cited by 221 publications
(156 citation statements)
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“…67 This type of study would cultivate a better understanding of OER catalysis from a comprehensive perspective, and furthermore would eventually bridge the gap between heterogeneous and homogeneous catalysis. [83][84][85] As described above, recent in situ and operando characterization studies captured the oxidation state of the active site and surface intermediate during the OER. The experimental evidence in Fig.…”
Section: Spectroscopic Evidence To Support the Claimed Catalytic Cyclmentioning
confidence: 99%
“…67 This type of study would cultivate a better understanding of OER catalysis from a comprehensive perspective, and furthermore would eventually bridge the gap between heterogeneous and homogeneous catalysis. [83][84][85] As described above, recent in situ and operando characterization studies captured the oxidation state of the active site and surface intermediate during the OER. The experimental evidence in Fig.…”
Section: Spectroscopic Evidence To Support the Claimed Catalytic Cyclmentioning
confidence: 99%
“…There are several earlier reviews that have explored recent developments in studies of SAC activity, such as capturing reaction intermediates and monitoring the dynamics of both the geometric structure and electronic environment of atomically dispersed sites, [7] and optimizing their reactivity by tailoring the local environment of active sites and speciations of the metal ions they embed. [8] Similar advances in the use of SACs for electrocatalysis have also been reviewed. [9] In general terms, progress in the SAC field has gone hand in hand with an increasing recognition of the various forms of complexity that are exhibited by these materialsinitially unexpected due to the assumed "homogeneity" of their atomically dispersed sites.…”
Section: Introductionmentioning
confidence: 95%
“…While “single atom catalysts” is the ubiquitous term used to describe these systems, the phrase “atomically dispersed catalysts” may better convey that the individual metal atoms are located at the surface of another material. There are several earlier reviews that have explored recent developments in studies of SAC activity, such as capturing reaction intermediates and monitoring the dynamics of both the geometric structure and electronic environment of atomically dispersed sites, [7] and optimizing their reactivity by tailoring the local environment of active sites and speciations of the metal ions they embed [8] . Similar advances in the use of SACs for electrocatalysis have also been reviewed [9] .…”
Section: Introductionmentioning
confidence: 99%
“…[ 219 ] The H 2 production via HER has been researched as an alternative clean fuel for various uses. [ 220 ] In this regard, the H 2 O electrolysis in alkaline media is of primary importance because it is the only largely employed technology worldwide and may become a game‐changer to achieve a sustainable future. [ 221 ] Recently, Ni 5 P 4 –Ru active sites were found highly active and long term stability for alkaline H 2 production with the low onset potential of 17 mV and an overpotential of 54 mV at a current density of 10 mA cm −2 with a Tafel slop of 53 mV decade −1 .…”
Section: Single‐atom Catalyst For Sustainable Energy Productionmentioning
confidence: 99%