Liang X,Yao S,Li Y.The progress and outlook of metal single-atom-site catalysis.J Am Chem Soc2022;144:18155-74

Liu Y,Wu G.Uniformly dispersed bismuth metal nano catalyst modified carbon cloth electrode for iron-chromium flow battery.Nano Res Energy2025;4:e9120135

Talib SH,Feng S,Yu Q.Theoretical catalytic performance of single-atom catalysts M₁/PW₁₂O₄₀ for alkyne hydrogenation materials.Nano Res Energy2024;3:e9120128

Li J,Doyle-Davis K,Sun X.Recent advances and strategies in the stabilization of single-atom catalysts for electrochemical applications.Carbon Energy2020;2:488-520

Da Y,Tian Z,Chen W.The applications of single-atom alloys in electrocatalysis: progress and challenges.SmartMat2023;4:e1136

Wei Z,Liu J.Recent advance in single-atom catalysis.Rare Met2021;40:767-89

Zheng X,Dou S.Non-carbon-supported single-atom site catalysts for electrocatalysis.Energy Environ Sci2021;14:2809-58

Li Z,Ji S.Iridium single-atom catalyst on nitrogen-doped carbon for formic acid oxidation synthesized using a general host-guest strategy.Nat Chem2020;12:764-72

Ji S,Wang X,Wang D.Chemical synthesis of single atomic site catalysts.Chem Rev2020;120:11900-55

Yu X,Peng Q.High performance electrocatalyst: Pt-Cu hollow nanocrystals.Chem Commun2011;47:8094-6

Liang G,Wu C.Advancing C–C coupling of the electrocatalytic CO₂ reduction reaction for C₂₊ products.J Mater Chem A2025;13:11210-35

Zhang X,Wang X,Pan H.Engineering spin states of metal sites toward advanced lithium–sulfur batteries.Energy Environ Sci2025;18:3553-67

Guo Q,Yu X.An inter-atomic synergistic Co–Zn diatomic catalyst for efficient H₂O₂ electrosynthesis in neutral and alkaline media.Green Chem2025;27:3032-43

Yang Q,Yuan P.Single carbon vacancy traps atomic platinum for hydrogen evolution catalysis.J Am Chem Soc2022;144:2171-8

Tang C,Shi B.Coordination tunes selectivity: two-electron oxygen reduction on high-loading molybdenum single-atom catalysts.Angew Chem Int Ed Engl2020;59:9171-6

Qu Z,Zhang T.Tricoordinated single-atom cobalt in zeolite boosting propane dehydrogenation.J Am Chem Soc2024;146:8939-48

Pan F,Liu K.Unveiling active sites of CO₂ reduction on nitrogen-coordinated and atomically dispersed iron and cobalt catalysts.ACS Catal2018;8:3116-22

Zhou X,Zhou W,Chen G.Nonprecious triple-atom catalysts with ultrahigh activity for electrochemical reduction of nitrate to ammonia: a DFT screening.ACS Appl Mater Interfaces2025;17:4854-64 PMCID:PMC11803552

Zhang J,Yao X.Precisely constructing asymmetric triple atoms for highly efficient electrocatalysis. Chem. 2025, In Press.

Li Y,Guo M.Advances in atomically dispersed catalysts for water splitting.Adv Funct Mater2025;35:2425056

Chen Z,Yang CC.Atomic (single, double, and triple atoms) catalysis: frontiers, opportunities, and challenges.J Mater Chem A2019;7:3492-515

Gu J,Huang L.Synergizing metal-support interactions and spatial confinement boosts dynamics of atomic nickel for hydrogenations.Nat Nanotechnol2021;16:1141-9

Pei W,Zhao J,Du Y.Immobilized trimeric metal clusters: a family of the smallest catalysts for selective CO₂ reduction toward multi-carbon products.Nano Energy2020;76:105049

Gao Q,Huang Y.Breaking adsorption-energy scaling limitations of electrocatalytic nitrate reduction on intermetallic CuPd nanocubes by machine-learned insights.Nat Commun2022;13:2338 PMCID:PMC9054787

Liu J,Zhu J.Understanding the pathway switch of the oxygen reduction reaction from single- to double-/triple-atom catalysts: a dual channel for electron acceptance-backdonation.JACS Au2023;3:3031-44 PMCID:PMC10685438

Cui C,Cheng R,Luo Z.On the nature of three-atom metal cluster catalysis for N₂ reduction to ammonia.ACS Catal2022;12:14964-75

Zhang D,Ma J,Zhang L.Disperse multimetal atom-doped carbon as efficient bifunctional electrocatalysts for oxygen reduction and evolution reactions: design strategies.J Phys Chem C2020;124:27387-95

Chen S,Han J.Interface engineering of Fe-Sn-Co sulfide/oxyhydroxide heterostructural electrocatalyst for synergistic water splitting.Nano Res Energy2024;3:e9120106

Zhang F,Liu M.Nature of C-C coupling and strategy of tuning the catalytic activity of Cu-N-C catalysts for electro-reduction of CO₂ to ethanol.Nano Energy2024;127:109699

Yu Z,Wang Y,Chen Y.Recent progress of electrochemical nitrate reduction to ammonia on copper-based catalysts: from nanoparticles to single atoms.Adv Energy Sustain Res2024;5:2300284

Liu C.Computational study on graphdiyne supported Pd_xCu_y clusters as potential catalysts for formic acid dehydrogenation.Int J Hydrogen Energy2024;79:248-57

Guo Q,Zhao Y,Fu J.Performance of nitrogen-doped carbon nanoparticles carrying FeNiCu as bifunctional electrocatalyst for rechargeable zinc-air battery.Small2024;20:e2400830

Li H,Zhu C.Triple-helical self-assembly of atomically precise nanoclusters.J Am Chem Soc2022;144:23205-13

Ji S,Fu Q.Confined pyrolysis within metal-organic frameworks to form uniform Ru₃ clusters for efficient oxidation of alcohols.J Am Chem Soc2017;139:9795-8

Liu JC,Li Y,Xiao H.Heterogeneous Fe₃ single-cluster catalyst for ammonia synthesis via an associative mechanism.Nat Commun2018;9:1610 PMCID:PMC5913218

Ye W,Lin Y.Precisely tuning the number of Fe atoms in clusters on N-doped carbon toward acidic oxygen reduction reaction.Chem2019;5:2865-78

Ji S,Zhao S.Atomically dispersed ruthenium species inside metal-organic frameworks: combining the high activity of atomic sites and the molecular sieving effect of MOFs.Angew Chem Int Ed Engl2019;58:4271-5

Dasgupta A,Gong R.Atomic control of active-site ensembles in ordered alloys to enhance hydrogenation selectivity.Nat Chem2022;14:523-9

Guo X,Li M.Modulating coordination of iron atom clusters on N,P,S triply-doped hollow carbon support towards enhanced electrocatalytic oxygen reduction.Angew Chem Int Ed Engl2023;62:e202314124

Yan X,Guo P.Atomically dispersed Co₂MnN₈ triatomic sites anchored in N-doped carbon enabling efficient oxygen reduction reaction.Adv Mater2023;35:e2210975

Kumari S,Sautet P.Nature of zirconia on a copper inverse catalyst under CO₂ hydrogenation conditions.J Am Chem Soc2023;145:26350-62

Liu J,Zhao X.Computational prediction of graphdiyne-supported three-atom single-cluster catalysts.CCS Chem2023;5:152-63

Chen C,Sun M.An asymmetrically coordinated ZnCoFe hetero-trimetallic atom catalyst enhances the electrocatalytic oxygen reaction.Energy Environ Sci2024;17:2298-308

Pan F,Li B.N and OH-immobilized Cu₃ clusters in situ reconstructed from single-metal sites for efficient CO₂ electromethanation in bicontinuous mesochannels.J Am Chem Soc2024;146:1423-34

Cai G,Zhang G.A volcano correlation between catalytic activity for sulfur reduction reaction and Fe atom count in metal center.J Am Chem Soc2024;146:13055-65

Ma C,Xia C.Theoretical insights into multi-metal atoms embedded nitrogen-doped graphene as efficient bifunctional catalysts for oxygen reduction and evolution reactions.Appl Surf Sci2022;605:154714

Wang H,Zhu H.Ultimate structures in catalysis: single atoms, subnano-clusters, and electrons.Sci China Mater2023;66:4521-41

Jiao L.Metal-organic frameworks for catalysis: fundamentals and future prospects.Chin J Catal2023;45:1-5

Wu R,Liu X.Oxidase-like ZnCoFe three-atom nanozyme as a colorimetric platform for ascorbic acid sensing.Anal Chem2022;94:14308-16

Xing D,Wang Y.Heterogeneous single-cluster catalysts for selective semihydrogenation of acetylene with graphdiyne-supported triatomic clusters.J Phys Chem C2019;123:10494-500

Pei W,Yu X.Graphitic carbon nitride supported trimeric metal clusters as electrocatalysts for N₂ reduction reaction.J Catal2024;429:115232

Qiao F.Photoelectrocatalytic hydrogen production: hydrogen production principle, performance optimization strategy, application and prospect.Nano Res Energy2025;4:e9120132

Li J,Xu L.Challenges and perspectives of single-atom-based catalysts for electrochemical reactions.JACS Au2023;3:736-55 PMCID:PMC10052268

Li Z,Gao Y.Computational study of tri-atomic catalyst-loaded two-dimensional graphenylene for overall water splitting.Catalysts2025;15:296

Su J,Song Y.Strain enhances the activity of molecular electrocatalysts via carbon nanotube supports.Nat Catal2023;6:818-28

Gao Z,Liu X.Shielding Pt/γ-Mo₂N by inert nano-overlays enables stable H₂ production.Nature2025;638:690-6

Gates BC,Liu J.Nested metal catalysts: metal atoms and clusters stabilized by confinement with accessibility on supports.Precis Chem2023;1:3-13 PMCID:PMC10069032

Deng Z,Lin J.Rational design and energy catalytic application of high-loading single-atom catalysts.Rare Met2024;43:4844-66

Deng Z,Sun Z,Zhai H.Electrocatalytic organic transformation reactions in green chemistry: exploring nanocrystals and single atom catalysts.Nano Res2024;17:9326-44

Chen C,Wang K.Dual-metal single-atomic catalyst: the challenge in synthesis, characterization, and mechanistic investigation for electrocatalysis.SmartMat2022;3:533-64

Wei J,Sheng L.Site-specific metal-support interaction to switch the activity of Ir single atoms for oxygen evolution reaction.Nat Commun2024;15:559 PMCID:PMC10792023

Ma Y,Tang M.Waste eggshell-derived N, P, S tri-doped core-shell catalysts for efficient Fenton-like catalysis.Chem Eng J2022;440:135879

Yang N,Li J,Wei Z.Modulating the oxygen reduction activity of heteroatom-doped carbon catalysts via the triple effect: charge, spin density and ligand effect.Chem Sci2018;9:5795-804

Li S,Zhao X.Hetero-trimetallic atom catalysts enable targeted ROS generation and redox signaling for intensive apoptosis and ferroptosis.Adv Mater2025;37:e2417198

Yuan L,Li G.Gram-scale preparation of tri-coordinated single-atom catalysts for CO₂ electrolysis in large-scale membrane electrode assembly.Adv Sci2025;12:e2500368 PMCID:PMC12079529

Gao T,Chen X.Ultra-fast preparing carbon nanotube-supported trimetallic Ni, Ru, Fe heterostructures as robust bifunctional electrocatalysts for overall water splitting.Chem Eng J2021;424:130416

Zhao X,Cao Y.Dual-atom Co/Ni electrocatalyst anchored at the surface-modified Ti₃C₂T_x MXene enables efficient hydrogen and oxygen evolution reactions.ACS Nano2024;18:4256-68

Wang Y,Han X.General negative pressure annealing approach for creating ultra-high-loading single atom catalyst libraries.Nat Commun2024;15:5675 PMCID:PMC11227521

Huang J,Liu M.Single-, double-, and triple-atom catalysts on PC₆ for nitrate reduction to ammonia: a computational screening.Electrochim Acta2024;504:144915

Wang S,Yan L.Tailoring of three-atom metal cluster catalysts for ammonia synthesis.Catalysts2023;13:869

Liu Z,Wang Z.Single-cluster anchored on PC₆ monolayer as high-performance electrocatalyst for carbon dioxide reduction reaction: first principles study.J Colloid Interface Sci2024;669:600-11

Shi X,Zhang S.Precious trimetallic single-cluster catalysts for oxygen and hydrogen electrocatalytic reactions: theoretical considerations.Nano Res2023;16:8042-50

Lin X,Hu Y.Revealing atomic configuration and synergistic interaction of single-atom-based Zn-Co-Fe trimetallic sites for enhancing oxygen reduction and evolution reactions.Small2023;19:e2300612

Wang W,Hu Y,Chen S.Intrinsic carbon defects for the electrosynthesis of H₂O₂.J Phys Chem Lett2022;13:8914-20

Zhu J.Defect engineering in carbon-based electrocatalysts: insight into intrinsic carbon defects.Adv Funct Mater2020;30:2001097

Tsai J,Pourzolfaghar H,Li Y.A Fe-Ni-Zn triple single-atom catalyst for efficient oxygen reduction and oxygen evolution reaction in rechargeable Zn-air batteries.Chem Eng J2023;460:141868

Jin H,Kim MG,Kim KS.Engineering Pt coordination environment with atomically dispersed transition metal sites toward superior hydrogen evolution.Adv Energy Mater2023;13:2204213

Zhang JP,Lin JB.Metal azolate frameworks: from crystal engineering to functional materials.Chem Rev2012;112:1001-33

Jia J,Sang Z.High-throughput design of single-atom catalysts with nonplanar and triple pyrrole-N coordination for highly efficient H₂O₂ electrosynthesis.Angew Chem Int Ed Engl2025;64:e202421864

Liu L.Metal catalysts for heterogeneous catalysis: from single atoms to nanoclusters and nanoparticles.Chem Rev2018;118:4981-5079 PMCID:PMC6061779

Holby EF.Activity of N-coordinated multi-metal-atom active site structures for Pt-free oxygen reduction reaction catalysis: role of ^*OH ligands.Sci Rep2015;5:9286 PMCID:PMC4365393

Cui D,Pan K.NO hydrogenation to NH₃ over FeCu/TiO₂ catalyst with improved activity.Front Chem Sci Eng2023;17:1973-85

Xiao J,Wang X,Zhao Z.Homonuclear multi-atom catalysts for CO₂ electroreduction: a comparison density functional theory study with their single-atom counterparts.J Mater Chem A2023;11:25662-70

Li F,Su S.Theoretical and experimental exploration of tri-metallic organic frameworks (t-MOFs) for efficient electrocatalytic oxygen evolution reaction.Appl Catal B Environ2021;299:120665

Li Y,Wu X.Design of hybrid zeolitic imidazolate framework-derived material with C-Mo-S triatomic coordination for electrochemical oxygen reduction.Small2021;17:e2003256

Sementa L,Fortunelli A.Analogy between homogeneous and heterogeneous catalysis by subnanometer metal clusters: ethylene oxidation on Ag trimers supported on MgO(1 0 0).Inorg Chim Acta2015;431:150-5

Wang Y,Ma N.High-selectivity CO₂-to-CH₄ electrochemical reduction on copper trimer: a theoretical insight.Surf Interfaces2024;50:104498

Zhang S,Zhao X.Advanced noncarbon materials as catalyst supports and non-noble electrocatalysts for fuel cells and metal–air batteries.Electrochem Energ Rev2021;4:336-81

Yang M,DiSalvo FJ.Mesoporous chromium nitride as a high performance non-carbon support for the oxygen reduction reaction.Phys Chem Chem Phys2013;15:7041-4

Chen S,Wang W,Xu L.Prediction of three-metal cluster catalysts on two-dimensional W₂N₃ support with integrated descriptors for electrocatalytic nitrogen reduction.ACS Nano2023;2:1522-32

Wang G,Jiang Y,Li J.Screened Fe₃ and Ru₃ single-cluster catalysts anchored on MoS₂ supports for selective hydrogenation of CO₂.ACS Catal2023;13:8413-22

Kim D,Li Y.Copper nanoparticle ensembles for selective electroreduction of CO₂ to C₂-C₃ products.Proc Natl Acad Sci U S A2017;114:10560-5 PMCID:PMC5635920

Kuhl KP,Abram DN.New insights into the electrochemical reduction of carbon dioxide on metallic copper surfaces.Energy Environ Sci2012;5:7050

Li L,Farwa .Copper as a single metal atom based photo-, electro- and photoelectrochemical catalyst decorated on carbon nitride surface for efficient CO₂ reduction: a review.Nano Res Energy2022;1:e9120015

Chu S,Park W.Single atom and defect engineering of CuO for efficient electrochemical reduction of CO₂ to C₂H₄.SmartMat2022;3:194-205

Xiao C.Architectural design for enhanced C₂ product selectivity in electrochemical CO₂ reduction using Cu-based catalysts: a review.ACS Nano2021;15:7975-8000

Liu S,Norwood S.Discovering effective descriptors for CO₂ electroreduction to predict the catalysts with different selectivity.J Phys Chem C2021;125:4550-8

Wu K,Wang Z.Surface reconstruction on uniform Cu nanodisks boosted electrochemical nitrate reduction to ammonia.ACS Mater Lett2022;4:650-6

Chen J,Alizadeh M.A catalytic sites contiguity study on atomically-dispersed ZnO-Cu/SiO₂ catalysts to improve methanol formation from CO₂ hydrogenation. Can. J. Chem. Eng. 2025.

Fu P,Wu C.Covalent organic framework stabilized single CoN₄Cl₂ site boosts photocatalytic CO₂ reduction into tunable syngas.Angew Chem Int Ed Engl2025;64:e202415202

Chen Y,Pan Y,Liu C.Triazine COF-supported single-atom catalyst (Pd₁/trzn-COF) for CO oxidation.Sci China Mater2021;64:1939-51

Dong C,Cheng D.Supported metal clusters: fabrication and application in heterogeneous catalysis.ACS Catal2020;10:11011-45

Chu M,Zhuang Z.Efficient polyolefin upcycling over single-atom alloy catalyst.CCS Chem2025;7:2451-64

Chen Q,Mao T.Spatially confining copper atom in flowerlike-CoFe hydroxides for smartphone-based ratiometric colorimetric dual-mode detection of nitrite.Microchem J2024;201:110578

Shang H,Ding M,Wang C.A smartphone-assisted colorimetric and photothermal probe for glutathione detection based on enhanced oxidase-mimic CoFeCe three-atom nanozyme in food.Food Chem2023;423:136296

Tang T,Wang Z.Structural engineering of atomic catalysts for electrocatalysis.Chem Sci2024;15:5082-112 PMCID:PMC10988631

Yan Y,Wang Z.Novel flexible aromatic Cu₃ metal-organic π-cluster for electrocatalytic CO₂ reduction reaction.Surf Interfaces2024;48:104349

Ouyang Y,Bai X,Wang J.Breaking scaling relations for efficient CO₂ electrochemical reduction through dual-atom catalysts.Chem Sci2020;11:1807-13 PMCID:PMC8148381

Gandionco KA,Bekaert L,Lim J.Single-atom catalysts for the electrochemical reduction of carbon dioxide into hydrocarbons and oxygenates.Carbon Energy2024;6:e410

Xie Z,Chen JG.Reduction-induced metal/oxide interfacial sites for selective CO₂ hydrogenation.SmartMat2023;4:e1201

Wang J,Wang G.Defective bimetallic selenides for selective CO₂ electroreduction to CO.Adv Mater2022;34:e2106354

Tamtaji M,Musgrave CB 3rd,Chen G.Reaction Mechanism of rapid CO electroreduction to propylene and cyclopropane (C₃₊) over triple atom catalysts.ACS Appl Mater Interfaces2024;16:50567-75

Zhao ZH,Huang NY.A Cu(111)@metal-organic framework as a tandem catalyst for highly selective CO₂ electroreduction to C₂H₄.Chem Commun2021;57:12764-7

Chen J,Li Z.Recent progress and perspective of electrochemical CO₂ reduction towards C₂-C₅ products over non-precious metal heterogeneous electrocatalysts.Nano Res2021;14:3188-207

Liu S,Yang J.Temperature-dependent pathways in carbon dioxide electroreduction.Sci Bull2025;70:889-96

Liu J,Jia S.Electrocatalytic CO₂ hydrogenation to C₂₊ alcohols catalysed by Pr–Cu oxide heterointerfaces.Nat Synth2025;4:730-43

Gawande MB,Felpin FX.Cu and Cu-based nanoparticles: synthesis and applications in catalysis.Chem Rev2016;116:3722-811

Jiang K.Disentangling distinct Cu surface sites for electrocatalytic CO₂-to-CO and CO-to-C₂₊ conversion.Sci China Chem2024;67:1047-8

Bagger A,Varela AS,Rossmeisl J.Electrochemical CO₂ reduction: a classification problem.Chemphyschem2017;18:3266-73

Liu M,Xu Q.Dual atomic catalysts from COF-derived carbon for CO₂ RR by suppressing HER through synergistic effects.Carbon Energy2023;5:e300

Wang D,Wu Y.Structurally ordered high-entropy intermetallic nanoparticles with enhanced C–C bond cleavage for ethanol oxidation.SmartMat2023;4:e1117

Yang X,Chi S,Huang Y.Hydrophobic perfluoroalkane modified metal-organic frameworks for the enhanced electrocatalytic reduction of CO₂.SmartMat2022;3:163-72

Zhou S,Wei S.Triple-atom catalysts 3TM-GYs (TM = Cu, Fe, and Co; GY = graphyne) for high-performance CO₂ reduction reaction to C₁ products.Appl Mater Today2021;25:101245

Todorova TK,Fontecave M.Mechanistic understanding of CO₂ reduction reaction (CO₂RR) toward multicarbon products by heterogeneous copper-based catalysts.ACS Catal2020;10:1754-68

Zhan C,Rettenmaier C.Key intermediates and Cu active sites for CO₂ electroreduction to ethylene and ethanol.Nat Energy2024;9:1485-96 PMCID:PMC11659170

Banerjee S,Thoi VS.Guiding CO₂RR Selectivity by compositional tuning in the electrochemical double layer.Acc Chem Res2022;55:504-15

Iqbal MS,Ruan Y.Single-atom catalysts for electrochemical N₂ reduction to NH₃.Rare Met2023;42:1075-97

He C,Wang J.Anchor single atom in h-BN assist NO synthesis NH₃: a computational view.Rare Met2022;41:3456-65

Zhang Y,Zheng W.Computational design of catalysts for ammonia synthesis.Nano Res Energy2023;2:e9120068

Yang X,Anibal J.Mechanistic insights into electrochemical nitrogen reduction reaction on vanadium nitride nanoparticles.J Am Chem Soc2018;140:13387-91

Macfarlane DR,Choi J.A roadmap to the ammonia economy.Joule2020;4:1186-205

Lin L,Jiang R,Lin S.The role of central heteroatom in electrochemical nitrogen reduction catalyzed by polyoxometalate-supported single-atom catalyst.Nano Res2023;16:309-17

Guo H,Huang S.Achilles’ heel of single atom catalysts towards practical PEMFC application: degradation mechanisms and regulatory strategies.Nano Res Energy2025;4:e9120144

Wang L,Wang H.Greening ammonia toward the solar ammonia refinery.Joule2018;2:1055-74

Cheng R,Luo ZX.Reduction of dinitrogen to ammonia on doped three-atom clusters Nb₂M (M = Sc to Cu & Y to Ag).Rare Met2024;43:3810-8

Smith C,Torrente-Murciano L.Current and future role of Haber–Bosch ammonia in a carbon-free energy landscape.Energy Environ Sci2020;13:331-44

Li M,Song J,Dong J.Ammonia electrosynthesis on carbon-supported metal single-atom catalysts.Chin J Catal2024;60:42-67

Kerpal C,Lyon JT,Fielicke A.N₂ activation by neutral ruthenium clusters.J Phys Chem C2013;117:12153-8

Ghoshal S,Sarkar P.Towards H₂O catalyzed N₂-fixation over TiO₂ doped Ru_n clusters (n = 5, 6): a mechanistic and kinetic approach.Phys Chem Chem Phys2021;23:1527-38

Chen ZW,Jiang M.A triple atom catalyst with ultrahigh loading potential for nitrogen electrochemical reduction.J Mater Chem A2020;8:15086-93

Yang L,Zhu W.Achieving reaction pathway separation for electrochemical nitrate fixation on triatomic catalysts: a new mechanism.J Hazard Mater2023;441:129972

Fu X,Kang Y.Recent advances and challenges of electrochemical ammonia synthesis.Chem Catal2022;2:2590-613

Liu Y,Jiang Y.Sulfonic acid-functionalized spiropyran colorimetric gas-sensitive aerogel for real-time visual ammonia sensing.Chem Eng J2025;511:162160

Andersen SZ,Yang S.A rigorous electrochemical ammonia synthesis protocol with quantitative isotope measurements.Nature2019;570:504-8

Kong D,Lui EKJ,Lundgren RJ.Direct reversible decarboxylation from stable organic acids in dimethylformamide solution.Science2020;369:557-61

Liu X,Zhang Q.Synthesis of MoS₂/Ni₃S₂ heterostructure for efficient electrocatalytic hydrogen evolution reaction through optimizing the sulfur sources selection.Appl Surf Sci2018;459:422-9

An Q,Jiang J.Atomic-level interface engineering for boosting oxygen electrocatalysis performance of single-atom catalysts: from metal active center to the first coordination sphere.Adv Sci2023;10:e2205031 PMCID:PMC9896066

Lu Z,Hu Y.An isolated zinc-cobalt atomic pair for highly active and durable oxygen reduction.Angew Chem Int Ed Engl2019;58:2622-6

Pang M,Zhang H.Synthesis techniques, mechanism, and prospects of high-loading single-atom catalysts for oxygen reduction reactions.Nano Res2024;17:9371-96

Gong H,Sun G.Insight into role of Ni/Fe existing forms in reversible oxygen catalysis based on Ni-Fe single-atom/nanoparticles and N-doped carbon.Rare Met2022;41:4034-40

Xu H,Shuai T.Noble metal-free N-doped carbon-based electrocatalysts for air electrode of rechargeable zinc-air battery.Sci China Mater2023;66:2953-3003

Qin S,Cao M.Fe-Co-Ni ternary single-atom electrocatalyst and stable quasi-solid-electrolyte enabling high-efficiency zinc-air batteries.Nano Res Energy2024;3:e9120122

Yin Z,Ye Y.Sp/sp² carbon ratio-driven high-throughput screening of electrocatalytic nitrogen reduction performance on transition metal single-atom catalysts.Rare Met2024;43:5781-91

Xie K,Liu M,Xu S.Catalysts for selective hydrogenation of acetylene: a review.Mater Today Catal2023;3:100029

Han B.Unraveling the role of active site Rh aggregation form in tuning the catalytic performance of ethane direct dehydrogenation.Mol Catal2023;547:113397

Cai S,Yang R.Emerging single-atom nanozymes for catalytic biomedical uses.Nano Res2023;16:13056-76

Huang J,Wang G,Sun M.Visual sensor arrays for distinction of phenolic acids based on two single-atom nanozymes.Anal Chem2023;95:9107-15

Li M,Wang H.Atomic insights into dynamic integration of morphology and surface chemistry on the growth mechanism of ternary Pt-based nanocatalysts.Cell Rep Phys Sci2025;6:102396

Pu T,Zhang F.Dual atom catalysts for energy and environmental applications.Angew Chem Int Ed Engl2023;62:e202305964

Wang G,Zhang G.Novel approach of diffusion-controlled sequential reduction to synthesize dual-atomic-site alloy for enhanced bifunctional electrocatalysis in acidic and alkaline media.Adv Funct Mater2024;34:2308876

Zhao L,Huang LB.Cascade anchoring strategy for general mass production of high-loading single-atomic metal-nitrogen catalysts.Nat Commun2019;10:1278 PMCID:PMC6426845

Babucci M,Debefve LM.Atomically dispersed reduced graphene aerogel-supported iridium catalyst with an iridium loading of 14.8 wt %.ACS Catal2019;9:9905-13

Yin S,Liu M.An in situ exploration of how Fe/N/C oxygen reduction catalysts evolve during synthesis under pyrolytic conditions.Nat Commun2024;15:6229 PMCID:PMC11266712

Wang Z,Zhu C.Atomically dispersed Co₂-N₆ and Fe-N₄ costructures boost oxygen reduction reaction in both alkaline and acidic media.Adv Mater2021;33:e2104718

Li M,Wu W,Xu L.Diatomic Fe-Fe catalyst enhances the ability to degrade organic contaminants by nonradical peroxymonosulfate activation system.Nano Res2023;16:4678-84

Xu Y,Zhong H.In situ clustering of single-atom copper precatalysts in a metal-organic framework for efficient electrocatalytic nitrate-to-ammonia reduction.ACS Catal2022;12:8698-706

Kunal P,Guo H.Pd–Au–Cu ternary alloy nanoparticles: highly tunable and economical nitrite reduction catalysts.ACS Catal2023;13:11945-53