Zhenzhen Yang R&D Staff Scientist - Material Synthesis for Catalysis and Separations Scientist Contact YANGZ3@ORNL.GOV All Publications Synergistic effect of dual Brønsted acidic deep eutectic solvents for oxidative desulfurization of diesel fuel Facile benzene reduction promoted by a synergistically coupled Cu–Co–Ce ternary mixed oxide Transformation Strategy for Highly Crystalline Covalent Triazine Frameworks: From Staggered AB to Eclipsed AA Stacking Surpassing Robeson Upper Limit for CO2/N2 Separation with Fluorinated Carbon Molecular Sieve Membranes Mechanochemical synthesis of pillar[5]quinone derived multi-microporous organic polymers for radioactive organic iodide capture and storage De novo fabrication of multi-heteroatom-doped carbonaceous materials via an in situ doping strategy High-Entropy Perovskite Fluorides: A New Platform for Oxygen Evolution Catalysis... Two-in-one: construction of hydroxyl and imidazolium-bifunctionalized ionic networks in one-pot toward synergistic catalytic CO 2 fixation Electrochemically induced crystallization of amorphous materials in molten MgCl2: boron nitride and hard carbon From Highly Purified Boron Nitride to Boron Nitride‐Based Heterostructures: An Inorganic Precursor‐Based Strategy... A succinct strategy for construction of nanoporous ionic organic networks from a pyrylium intermediate Topotactic Synthesis of Phosphabenzene-Functionalized Porous Organic Polymers: Efficient Ligands in CO 2 Conversion Influence of fluorination on CO2 adsorption in materials derived from fluorinated covalent triazine framework precursors Entropy‐Driven Mechanochemical Synthesis of Polymetallic Zeolitic Imidazolate Frameworks for CO2 Fixation Pagination First page « First Previous page ‹Ĺ … Page 2 Page 3 Current page 4 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
