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[1] General negative pressure annealing approach for creating ultra-high-loading single atom catalyst librariesNature Communications,2024,
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[2] Engineering Atom‐Scale Cascade Catalysis via Multi‐Active Site Collaboration for Ampere‐Level CO Electroreduction to C2+ ProductsAdvanced Materials,2025,
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[3] Direct Observation of Transition Metal Ions Evolving into Single Atoms: Formation and Transformation of Nanoparticle IntermediatesAdvanced Science,2023,
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[4] Asymmetric Oxygen Activation Induced by Co-Pb Dual Atom Sites for Efficient pH-Universal H2O2 ElectrosynthesisAdvanced Functional Materials,2026,
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[5] One-step self-activated carbon adsorbent with synergistic micropore-mesopore structure for exceptional SF6/N2 separation performanceCarbon,2025,
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[6] N-Coordinated Iridium–Molybdenum Dual-Atom Catalysts Enabling Efficient Bifunctional Hydrogen ElectrocatalysisACS Applied Materials & Interfaces,2024,
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[7] Efficient industrial-current-density acetylene to polymer-grade ethylene via hydrogen-localization transfer over fluorine-modified copperNature Communications,2023,
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[8] Ru–W Pair Sites Enabling the Ensemble Catalysis for Efficient Hydrogen EvolutionAdvanced Science,2023,
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[9] External-Shell Oxygen Enabling the Local Environment Modulation of Unsaturated NbN3 for Efficient Electrosynthesis of Hydrogen PeroxideACS Applied Materials & Interfaces,2023,
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[10] Interfacial Cladding Engineering Suppresses Atomic Thermal Migration to Fabricate Well‐Defined Dual‐Atom ElectrocatalystsAdvanced Functional Materials,2022,
