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Single-Atom Catalysts: From Design to Application

Abstract Single-atom catalysis is a powerful and attractive technique with exceptional performance, drastic cost reduction and notable catalytic activity and selectivity. In single-atom catalysis, supported single-atom catalysts contain isolated individual atoms dispersed on, and/or coordinated with, surface atoms of appropriate supports, which not only maximize

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Implanting single-atom N2-Fe-B2 catalytic sites in carbon hosts to

Energy Storage Mater., 41 (2021), pp. 496-503. View PDF View article View in Scopus Google Scholar [3] Advances in the development of single-atom catalysts for high-energy-density lithium-sulfur batteries. Adv. Mater., 34 (2022), Article 2200102. View in Scopus Google Scholar [13]

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Environmental and economic benefits of single-atom catalysts in energy

Single-atom catalysts (SACs) have gained significant popularity in heterogeneous catalysis owing to their high activity and stability. The predom. In the realm of energy storage systems, SACs have demonstrated remarkable performance in batteries and supercapacitors . Nitrogen-doped graphene has been employed as a support for Co-based

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N/O dual coordination of cobalt single atom for fast

Room-temperature sodium-sulfur batteries are promising grid-scale energy storage systems owing to their high energy density and low cost. However, their application is limited by the dissolution of long-chain sodium polysulfides and slow redox kinetics. To address these issues, a cobalt single-atom catalyst with N/O dual coordination was derived from a

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Single-atom catalysts for next-generation rechargeable batteries

Among other materials, single-atom transition metal-doping strategy provides active sites on the framework structures. It has been anticipated that SACs are beneficial for increasing pseudo-capacitance by catalyzing some surface redox reactions, leading to higher energy-storage density [191], [192], [193].

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Soft template-directed interlayer confinement synthesis

The application of single-atom catalysts (SACs) in energy conversion and storage has been an active new frontier because of the ultimate atom Two-dimensional matrices confining metal single atoms with enhanced electrochemical reaction kinetics for energy storage applications. Energy Environ. Sci., 14 (2021), pp. 1794-1834, 10.1039

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Single-atom catalysts for electrochemical energy storage and conversion

The expedited consumption of fossil fuels has triggered broad interest in the fabrication of novel catalysts for electrochemical energy storage and conversion. Especially, single-atom catalysts (SACs) have attracted more attention owing to their high specific surface areas and abundant active centers. This review summarizes recent synthetic strategies to

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Progress of Main-Group Metal-Based Single-Atom Catalysts

Single-atom catalysts (SACs) have emerged as promising materials in energy conversion and storage systems due to their maximal atom utilization, unique electronic structure, and high efficiency. Among them, main-group metal-based SACs (the s-block and p-block metals) are emerging extraordinary materials and have attracted particular interest in the past few

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Single-Atom Sites on MXenes for Energy Conversion and Storage

1 Introduction. With growing demand for utilizing the clean and renewable energy for practical applications in our daily life, it is motivating to develop the highly efficient energy-storage and conversion systems. [] Recently, single-atom sites (SASs) anchored on 2D materials exhibit great potential in energy-related applications due to their highly exposed active centers

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3D Nanoporous Graphene Based Single-Atom Electrocatalysts for Energy

ConspectusThis Account will provide an overview and analysis on recent research of 3D nanoporous graphene based single-atom electrocatalysts for energy conversion and storage applications. In order to meet the increasing energy demands and assist in the transition from a global economy that relies heavily on fossil fuels to one that utilizes more

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Single-Atom Ni Supported on TiO2 for Catalyzing Hydrogen Storage

As an efficient and clean energy carrier, hydrogen is expected to play a key role in future energy systems. However, hydrogen-storage technology must be safe with a high hydrogen-storage density, which is difficult to achieve. MgH2 is a promising solid-state hydrogen-storage material owing to its large hydrogen-storage capacity (7.6 wt %) and excellent

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Single-atom catalysts for high-energy rechargeable batteries

Single-atom catalysts for high-energy rechargeable batteries H. Tian, A. Song, H. Tian, J. Liu, G. Shao, H. Liu and G. Wang, Chem. Sci., 2021, 12, 7656 DOI: 10.1039/D1SC00716E This article is licensed under a Creative Commons Attribution 3.0 Unported Licence. You can use material from this article in other publications without requesting further permissions from the RSC, provided

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The recent progress of single-atom catalysts on

Single-atom catalysts (SACs) have emerged as a focal point in energy catalytic conversion due to their remarkable atomic efficiency and catalytic performance. The challenge lies in efficiently anchoring active sites on a specific substrate to prevent agglomeration, maximizing their effectiveness. Substrate characteristics play a pivotal role in shaping the catalytic

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Advances in the Development of Single‐Atom Catalysts for High‐Energy

These problems can be mitigated through the use of single-atom catalysts (SACs), which exhibit the advantages of maximal atom utilization efficiency (≈100%) and unique catalytic properties, thus effectively enhancing the performance of electrode materials in energy-storage devices.

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Single-atom catalysts for electrochemical energy storage and

DOI: 10.1016/j.jechem.2021.08.041 Corpus ID: 238777046; Single-atom catalysts for electrochemical energy storage and conversion @article{Ma2021SingleatomCF, title={Single-atom catalysts for electrochemical energy storage and conversion}, author={Wei Ma and Hao Wan and Lili Zhang and Jinyou Zheng and Zhengbin Zhou}, journal={Journal of Energy

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Single-Atom Sites on MXenes for Energy Conversion and

energy for practical applications in our daily life, it is motivating to develop the highly efficient energy-storage and conversion sys-tems.[1] Recently, single-atom sites (SASs) anchored on 2D mate-rials exhibit great potential in energy-related applications due to their highly exposed active centers and maximized atom utiliza-tion.[2] Also

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Single-Atom Catalysts: Advances and Challenges in Metal

Single-atom catalysts (SACs), which contain a single metal atom supported on a well-confined substrate, are among the most promising heterogeneous catalysts owing to their unique advantages, such as high intrinsic activity and selectivity, tunable bonds and coordination, abundant metal-containing active sites, and atomic economy. Since metal-support interactions

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Facile dehydrogenation of MgH2 enabled by γ-graphyne based single-atom

Energy storage is one of the key technologies to support the large-scale development of new energy and ensure energy security [1, 2].As a typical large-scale energy storage, hydrogen energy storage has always been a research hotspot in this field [3].Hydrogen energy is a kind of flexible and efficient "secondary energy" with rich application scenarios [4].

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Single Atoms on Graphene for Energy Storage and Conversion

Single atoms are attracting much attention in the field of energy conversion and storage due to their maximal atomic utilization, high efficiency, and good selectivity. Moreover, their unique electronic structure could improve the intrinsic activity of the active sites.

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Precise Modulation and Densification of Metal Sites in Single‐Atom

Precise Modulation and Densification of Metal Sites in Single-Atom Catalysts for Energy Storage and Conversion. Xiaoqing Liu, Xiaoqing Liu. Key Laboratory of Advanced Ceramics and Machining Technology, Ministry of Education, School of Materials Science and Engineering, Tianjin University, Tianjin, 300354 China.

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Coordinatively Deficient Single-atom Fe-N-C Electrocatalyst with

The ever-growing energy demand has motivated extensive research on next-generation energy storage technologies with high energy density and low cost. [1], [2], [3] Particularly, lithium-sulfur (Li-S) battery is among the most promising candidates due to the intriguing features such as the high theoretical capacity of 1675 mAh g −1

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Microenvironment engineering of covalent organic framework based single

Atomically dispersed catalysts with nearly 100% metal utilization have attracted widespread interest for application in heterogeneous catalysis, energy storage and conversion. Because of the strong metal–support interactions (SMSIs), the support plays a vital role in precisely regulating the local microenvironment

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Graphene oxide-derived single-atom catalysts for electrochemical energy

Sustainable electrochemical energy conversion is considered as a promising solution to energy crises and environmental issues. Owing to their maximized utilization efficiency and excellent catalytic performance, single-atom catalysts (SACs) have obtained tremendous attention in the field of electrochemical energy conversion. In the last few years, graphene

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About Single atom and energy storage

About Single atom and energy storage

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6 FAQs about [Single atom and energy storage]

Are single atoms suitable for energy conversion and storage?

Finally, the future developments and prospects in fabrication and application of SAG are also discussed. The authors declare no conflict of interest. Abstract Single atoms are attracting much attention in the field of energy conversion and storage due to their maximal atomic utilization, high efficiency, and good selectivity.

Can single atom catalysts be used for next-generation rechargeable batteries?

In this article, we have summarized the recent advantages of the applications of single-atom catalysts (SACs) for next-generation rechargeable batteries. First, synthesis techniques for the SACs have been briefly discussed, with the merits and demerits of these techniques focusing on the most important ones.

Do single atoms have a conflict of interest?

The authors declare no conflict of interest. Abstract Single atoms are attracting much attention in the field of energy conversion and storage due to their maximal atomic utilization, high efficiency, and good selectivity. Moreover, their uni...

Could a single atom battery improve potassium storage performance?

Similar to Li-/Na-S batteries, recent research also revealed that a single-atom design could also boost the performance of potassium storage (K-storage) via enhancing conversion kinetics in the K-S chemistry.

How to choose a suitable single atoms based catalyst?

For a suitable single atoms (SAs) based catalyst, there should be: 1) homogeneous distribution of isolated atoms, 2) strong interaction between the SAs and support, 3) sufficient channels for mass/electron transportation, 4) well-exposed active sites .

Why is the concentration of single atoms in sacs important?

The concentration of single atoms within SACs has to be delicately controlled because single atoms easily aggregate under high mass loading. Such aggregation within catalysts can reduce the catalytic activities.

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