Zhenzhen Yang R&D Staff Scientist - Material Synthesis for Catalysis and Separations Scientist Contact YANGZ3@ORNL.GOV All Publications Entropy stabilized cubic Li7La3Zr2O12 with reduced lithium diffusion activation energy: studied using solid-state NMR spectroscopy High-performance CO2 Capture from Air by Harnessing the Power of CaO- and Superbase Ionic Liquid-Engineered Sorbents Revolutionizing Porous Liquids: Stabilization and Structural Engineering Achieved by a Surface Deposition Strategy Harnessing the Hybridization of a Metal-Organic Framework and Superbase-Derived Ionic Liquid for High-Performance Direct Air ... A one-pot synthesis of high-density biofuels through bifunctional mesoporous zeolite-encapsulated Pd catalysts Solvent-Treated Zirconium-Based Nanoporous UiO-66 Metal–Organic Frameworks for Enhanced CO2 Capture Expeditious Coordination-Driven Construction of Hierarchically Nanoporous Barium Salts Construction of Boron- and Nitrogen-Enriched Nanoporous Ï€-Conjugated Networks Towards Enhanced Hydrogen Activation... Construction of conjugated scaffolds driven by mechanochemistry towards energy storage applications Mechanochemistry-Induced Strong Metal–Support Interactions Construction toward Enhanced Hydrogenation Nonclassical Strong Metal–Support Interactions for Enhanced Catalysis Electrochemical CO2-to-ethylene conversion on metal-free covalent quinazoline network-derived electrodes Construction of Nitrogen-abundant Graphyne Scaffolds via Mechanochemistry-Promoted Cross-Linking of Aromatic Nitriles with Carbide Toward Enhanced Energy Storage Strategies for design and synthesis of porous liquids toward carbon capture and separation CO2 Chemisorption Behavior in Conjugated Carbanion-Derived Ionic Liquids via Carboxylic Acid Formation Engineering Nanostructured Interfaces of Hexagonal Boron Nitride-Based Materials for Enhanced Catalysis... Enhanced Carbon Capture Behavior of Carbon Fibers via Ionic Liquid Modification Computational Insights into Malononitrile-Based Carbanions for CO2 Capture Construction of Fluorine- and Piperazine-Engineered Covalent Triazine Frameworks Towards Enhanced Dual-Ion Positive Electrode Performance Enhanced Oxygen Activation Achieved by Robust Single Chromium Atom-Derived Catalysts in Aerobic Oxidative Desulfurization Fully Conjugated Poly(phthalocyanine) Scaffolds Derived from a Mechanochemical Approach Towards Enhanced Energy Storage Mechanochemistry-driven phase transformation of crystalline covalent triazine frameworks assisted by alkaline molten salts Defect Engineering of Ceria Nanocrystals for Enhanced Catalysis via a High-Entropy Oxide Strategy... Defect-Regulated Frustrated-Lewis-Pair Behavior of Boron Nitride in Ambient Pressure Hydrogen Activation Ultrasound-mediated synthesis of nanoporous fluorite-structured high-entropy oxides toward noble metal stabilization Pagination First page « First Previous page ‹â¶Ä¹ Page 1 Current page 2 Page 3 … Next page ›â¶Äº Last page Last » Key Links Curriculum Vitae Organizations Physical Sciences Directorate Chemical Sciences Division Separations and Polymer Chemistry Section Nanomaterials Chemistry Group
Research Highlight Topotactically From Pyrylium to Phosphabenzene-Functionalized Porous Organic Polymers: Efficient Ligands in CO2 Capture & Conversion
