Almost 100 % Peroxymonosulfate Conversion to Singlet Oxygen on Single‐Atom CoN<sub>2+2</sub> Sites

Mi, Xueyue; Wang, Pengfei; Xu, Shizhe; Su, Lina; Zhong, Hui; Wang, Haitao; Li, Yang; Zhan, Sihui

doi:10.1002/ange.202014472

Cited by 298 publications

(55 citation statements)

References 47 publications

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“…[ 20,54 ] However, which one dominates is still not clear even in the highly similar Co SACs/PMS systems. [ 14,20–22,54 ] Herein, the involved reaction mechanisms were discriminated by in situ EPR and scavenging experiments. A set of characteristic signals for DMPOSO 4 •− , DMPO • OH, and TEMP −1 O 2 adducts observed in Figure 4d,e reveal that the radical and nonradical reaction processes might both occur in p‐CoSi 1 N 3 @D/PMS system.…”

Section: Resultsmentioning

confidence: 99%

“…In fact, the electron transfer between PMS molecules and Co site was regarded as the rate determining process in the nonradical pathway. [ 14,18 ] To gain deep insights into the relationship between electron transfer, PMS activation properties and spatial coordination configuration of cobalt single atom active sites, DFT calculations were further carried out. Based on the formation energy calculation results, we chose the most energetically favorable structures (CoN 4 ‐PdN‐IE and CoSi 1 N 3 ‐PdN‐IE) to discuss the effect of Si substitution on PMS activation ( Figure a,b; Table S7, Supporting Information).…”

Section: Resultsmentioning

confidence: 99%

“…[20,54] However, which one dominates is still not clear even in the highly similar Co SACs/PMS systems. [14,[20][21][22]54] Herein, the involved reaction mechanisms were discriminated by in situ EPR and scavenging experiments. A set of characteristic signals for DMPOSO 4…”

Section: Radical (Somentioning

confidence: 99%

“…[ 7–10 ] In recent years, Co single atom catalysts (SACs), as one of the most emerging kinds of heterogeneous catalysts, possess special electronic structure, utmost Co atom utilization efficiency, and uniformly isolated Co active sites. [ 11–17 ] Such unique properties make Co SACs an attractive platform to bridge the gap between homogeneous and heterogeneous PMS activation. [ 1,11,17–20 ]…”

Section: Introductionmentioning

confidence: 99%

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Mineral Modulated Single Atom Catalyst for Effective Water Treatment

Dong

Chen

Tang

et al. 2022

Adv Funct Materials

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Single atom catalysts (SACs) have been growing as an emerging "hot" topic in environmental remediation. Their performance can be rationally optimized via modulating spatial coordination configuration and the porous structure of SACs, which is still challenging. Herein, a novel Si, N co-coordinated cobalt SAC (p-CoSi 1 N 3 @D) with 3D free standing architecture is tailored via employing natural mineral (diatomite) as a Si source and porous template. Theoretical calculations and experimental analysis reveal that the substitution of N by Si dramatically accelerates the interaction and electron transfer between peroxymonosulfate and the Co single atom center. Moreover, p-CoSi 1 N 3 @D inherits the hierarchically porous architecture of diatomite, providing more accessible cobalt sites and open diffusion channels for peroxymonosulfate and contaminants in water treatment applications. Thanks to optimal coordination structure and porous architecture, p-CoSi 1 N 3 @D can serve as a highly active catalyst for peroxymonosulfate activation, with a turnover frequency of 299.8 min −1 for bisphenol A degradation, surpassing those of catalysts with transition metal SACs or oxides in the disclosed literature. This work provides a novel strategy for the development of SACs for wastewater reclamation, and deepens the understanding of the significant role of templates in spatial coordination configuration of SACs.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Radical (Somentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Mineral Modulated Single Atom Catalyst for Effective Water Treatment

Dong

Chen

Tang

et al. 2022

Adv Funct Materials

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“…[21,22] In recent years,c arbon-supported atomic metal-N-C catalysts have been used in the fields of energy, [23][24][25][26] biology, [27] and environment. [3,28] Therefore,t he carbon-supported atomic metal-N-C catalysts with definite catalytic sites and high activity are promising candidates to combat organic contaminants in AOPs.I nc ontrast, less attention has been paid to carbon-supported atomic metal-N-C catalysts with different transition metal centers and to the disclosing of the nature of the transition metals on the PMS-assisted catalytic activities and trends toward ROS production. [1,[29][30][31][32] Therefore,i ti s imperative to synthesize metal-N-C catalysts with uniform structures and atomic metal sites to comprehensively analyze structure-performance relationships and uncover their cata-lytic activity trends and reaction mechanisms in PMS-assisted catalytic ROSproduction.…”

Section: Introductionmentioning

confidence: 99%

Activity Trends and Mechanisms in Peroxymonosulfate‐Assisted Catalytic Production of Singlet Oxygen over Atomic Metal‐N‐C Catalysts

Gao

Yang

et al. 2021

Angewandte Chemie

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We synthesized a series of carbon‐supported atomic metal‐N‐C catalysts (M‐SACs: M=Mn, Fe, Co, Ni, Cu) with similar structural and physicochemical properties to uncover their catalytic activity trends and mechanisms. The peroxymonosulfate (PMS) catalytic activity trends are Fe‐SAC>Co‐SAC>Mn‐SAC>Ni‐SAC>Cu‐SAC, and Fe‐SAC displays the best single‐site kinetic value (1.65×105 min−1 mol−1) compared to the other metal‐N‐C species. First‐principles calculations indicate that the most reasonable reaction pathway for 1O2 production is PMS→OH*→O*→1O2; M‐SACs that exhibit moderate and near‐average Gibbs free energies in each reaction step have a better catalytic activity, which is the key for the outstanding performance of Fe‐SACs. This study gives the atomic‐scale understanding of fundamental catalytic trends and mechanisms of PMS‐assisted reactive oxygen species production via M‐SACs, thus providing guidance for developing M‐SACs for catalytic organic pollutant degradation.

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Recent Developments of Microenvironment Engineering of Single‐Atom Catalysts for Oxygen Reduction toward Desired Activity and Selectivity

Huang

Tang

et al. 2021

Adv Funct Materials

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Oxygen reduction reaction (ORR) is an essential process for sustainable energy supply and sufficient chemical production in modern society. Singleatom catalysts (SACs) exhibit great potential on maximum atomic efficiency, high ORR activity, and stability, making them attractive candidates for pursuing next-generation catalysts. Despite substantial efforts being made on building diversiform single-atom active sites (SAASs), the performance of the obtained catalysts is still unsatisfactory. Fortunately, microenvironment regulation of SACs provides opportunities to improve activity and selectivity for ORR. In this review, first, ORR mechanism pathways on N-coordinated SAAS, electrochemical evaluation, and characterization of SAAS are displayed. In addition, recent developments in tuning microenvironment of SACs are systematically summarized, especially, strategies for microenvironment modulation are introduced in detail for boosting the intrinsic 4e − /2e − ORR activity and selectivity. Theoretical calculations and cutting-edge characterization techniques are united and discussed for fundamental understanding of the synthesis-construction-performance correlations. Furthermore, the techniques for building SAAS and tuning their microenvironment are comprehensively overviewed to acquire outstanding SACs. Lastly, by proposing perspectives for the remaining challenges of SACs and infant microenvironment engineering, the future directions of ORR SACs and other analogous procedures are pointed out.

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Almost 100 % Peroxymonosulfate Conversion to Singlet Oxygen on Single‐Atom CoN₂₊₂ Sites

Cited by 298 publications

References 47 publications

Mineral Modulated Single Atom Catalyst for Effective Water Treatment

Mineral Modulated Single Atom Catalyst for Effective Water Treatment

Activity Trends and Mechanisms in Peroxymonosulfate‐Assisted Catalytic Production of Singlet Oxygen over Atomic Metal‐N‐C Catalysts

Recent Developments of Microenvironment Engineering of Single‐Atom Catalysts for Oxygen Reduction toward Desired Activity and Selectivity

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Almost 100 % Peroxymonosulfate Conversion to Singlet Oxygen on Single‐Atom CoN2+2 Sites

Cited by 298 publications

References 47 publications

Mineral Modulated Single Atom Catalyst for Effective Water Treatment

Mineral Modulated Single Atom Catalyst for Effective Water Treatment

Activity Trends and Mechanisms in Peroxymonosulfate‐Assisted Catalytic Production of Singlet Oxygen over Atomic Metal‐N‐C Catalysts

Recent Developments of Microenvironment Engineering of Single‐Atom Catalysts for Oxygen Reduction toward Desired Activity and Selectivity

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Almost 100 % Peroxymonosulfate Conversion to Singlet Oxygen on Single‐Atom CoN₂₊₂ Sites