Junyan Zhang Postdoctoral Research Associate - Catalytic Chemist Contact zhangj1@ornl.gov All Publications Tuning metal-support interactions in nickel–zeolite catalysts leads to enhanced stability during dry reforming of methane... Active Palladium Structures on Ceria Obtained by Tuning Pd–Pd Distance for Efficient Methane Combustion Restructuring of the Lewis Acid Sites in Y-Modified Dealuminated Beta-Zeolite by Hydrothermal Treatment Stabilization and manipulation of highly concentrated copper single atoms by high entropy oxides Low-temperature dechlorination of polyvinyl chloride (PVC) for production of H2 and carbon materials using liquid metal catalysts Quantification of active sites in yttrium containing dealuminated Beta zeolites during conversion of ethanol and acetaldehyde... Dynamic Copper Site Redispersion through Atom Trapping in Zeolite Defects Tailoring olefin distribution via tuning rare earth metals in bifunctional Cu-RE/beta-zeolite catalysts for ethanol upgrading Recent Developments in Revealing the Impact of Complex Metal Oxide Reconstruction on Catalysis Mechanochemistry-Induced Strong Metal–Support Interactions Construction toward Enhanced Hydrogenation Adsorbate-Induced Strong Metal–Support Interactions: Implications for Catalyst Design CH4 Activation over Perovskite Catalysts: True Density and Reactivity of Active Sites Ethanol Conversion to C4+ Olefins over Bimetallic Copper- And Lanthanum-Containing Beta Zeolite Catalysts Direct 2,3-Butanediol Conversion to Butene-Rich C3+ Olefins over Copper-Modified 2D Pillared MFI: Consequence of Reduced Diffusion Length Towards cost-competitive middle distillate fuels from ethanol within a market-flexible biorefinery concept Isolated Metal Sites in Cu–Zn–Y/Beta for Direct and Selective Butene-Rich C3+ Olefin Formation from Ethanol... Selective Butene Formation in Direct Ethanol-to-C3+-Olefin Valorization over Zn–Y/Beta and Single-Atom Alloy Composite Catalysts Using In Situ-Generated Hydrogen Mechanistic Understanding of Catalytic Conversion of Ethanol to 1-Butene over 2D-Pillared MFI Zeolite... A Hybrid Pathway to Biojet Fuel via 2,3-Butanediol Desulfurization of Liquid Hydrocarbon Fuels with Microporous and Mesoporous Materials: Metal-Organic Frameworks, Zeolites, an... Mesopore differences between pillared lamellar MFI and MWW zeolites probed by atomic layer deposition of titania and consequences on photocatalysis Organizations Physical Sciences Directorate Chemical Sciences, Geosciences, and Biosciences Chemical Sciences Division Chemical Transformations Section Surface Chemistry and Catalysis Group