Zhenzhen Yang

Zhenzhen Yang

R&D Staff Scientist - Material Synthesis for Catalysis and Separations Scientist

Contact

YANGZ3@ORNL.GOV

All Publications

Constructing Water-Stable Porous Organic Salts via Suppressed Proton Integration Using Fluorinated Tetrazole Tectons

Creating free standing covalent organic framework membranes by nanocrystal suturing in sol gel solutions

Reciprocal Ternary Molten Salts Enable the Direct Upcycling of Spent Lithium-Nickel-Manganese-Cobalt Oxide (NMC) Mixtures to ...

Mesoporous Amorphous High-Entropy Oxide Films: Unlocking Enhanced Redox Activity

Transforming Boron Carbon Nitride: A Carbon-to-Oxygen Switch to Boost Propane Oxidative Dehydrogenation

N-Heterocyclic Carbene Functionalization of 2D Transition Metal Dichalcogenides via a Frustrated Lewis Pair Strategy

Polyethylene Upcycling to Liquid Alkanes in Molten Salts under Neat and External Hydrogen Source-Free Conditions...

Construction of Porous Tetrazine-Functionalized Networks: From Two- to Three-Dimensional Counterparts with Tunable Properties

Tailoring the Gating Effect of Organic Cage via a Porous Liquid Approach...

Sub-5 Ångstrom Porosity Tuning in Calixarene-Derived Porous Liquids via Supramolecular Complexation Construction...

Permanent Nanobubbles in Water: Liquefied Hollow Carbon Spheres Break the Limiting Diffusion Current of Oxygen Reduction Reaction

Ionic Liquid Aided [11C]CO Fixation for Synthesis of 11C-carbonyls

The carbon challenge: Design, synthesis, and chemisorption behavior of solid sorbents in direct air capture of carbon dioxide

Unveiling the porosity effect of superbase ionic liquid-modified carbon sorbents in CO2 capture from air

Cascade CO2 Insertion in Carbanion Ionic Liquids Driven by Structure Rearrangement

Intermolecular Proton Transfer Enabled Reactive CO<sub>2</sub> Capture by the Malononitrile Anion

Porous liquids: an integrated platform for gas storage and catalysis

Stabilization and manipulation of highly concentrated copper single atoms by high entropy oxides

Precision Structure Engineering of High-Entropy Oxides under Ambient Conditions

Supramolecular Complexation-Enhanced CO2 Chemisorption in Amine-Derived Sorbents

Ionic Pairs-Engineered Fluorinated Covalent Organic Frameworks Toward Direct Air Capture of CO2

Amide-Engineered Metal–Organic Porous Liquids Toward Enhanced CO2 Photoreduction Performance...

Lattice engineering of high-entropy olivine-type lithium metal phosphate as high-voltage cathodes

Surpassing the Performance of Phenolate-derived Ionic Liquids in CO2 Chemisorption by Harnessing the Robust Nature of Pyrazol...

Covalent Triazine Framework-Derived Membranes: Engineered Sol–Gel Construction and Gas Separation Application...