Your search keyword '"Cui, Yuntong"' showing total 2 results

1. Tailoring interfacial microenvironment of palladium‐zeolite catalysts for the efficient low‐temperature hydrodeoxygenation of vanillin in water.

Author

Ran, Jiansu, Alfilfil, Lujain, Li, Jingwei, Yangcheng, Ruixue, Liu, Zhaohui, Wang, Qin, Cui, Yuntong, Cao, Tong, Qiao, Min, Yao, Kexin, Zhang, Daliang, and Wang, Jianjian

Subjects

VANILLIN, CATALYSTS, LIGNIN structure, LIGNINS, HYDROGENOLYSIS, HETEROGENEOUS catalysis, BIOMASS energy

Abstract

Efficient low‐temperature hydrodeoxygenation (HDO) of lignin derivatives to produce biofuels and high value‐added chemicals is still of challenge. Here, we have constructed a high active and stable 0.2 wt.% Pd/MS‐HZSM‐5(30) catalyst, and 94.7 % yield of 2‐methoxy‐4‐methylphenol (MMP) can be achieved in HDO of vanillin (VAN, a typical platform molecule of lignin derivatives) under milder reaction conditions (60 °C, 5 h, molar ratio of VAN/Pd=1200, water phase), outperforming the most works reported recently. Detailed experimental and mechanistic studies demonstrated that the superior catalytic performance was due to the rapid hydrogenolysis of generated intermediate (vanillyl alcohol, VAL) to MMP proceeded in an interfacial microenvironmental created by Pd NPs and acidic sites in Pd/MS‐HZSM‐5(30). These new insights will provide potential guidance for the efficient low‐temperature production of biofuels and valuable chemicals from lignin derivatives or raw lignin. [ABSTRACT FROM AUTHOR]

Published

2022

2. Phosphoric acid-modified commercial kieselguhr supported palladium nanoparticles as efficient catalysts for low-temperature hydrodeoxygenation of lignin derivatives in water.

Author

Yangcheng, Ruixue, Ran, Jiansu, Liu, Zhaohui, Cui, Yuntong, and Wang, Jianjian

Subjects

DIATOMACEOUS earth, PALLADIUM, CATALYSTS, NANOPARTICLES, BIOMASS energy, LIGNINS, LIGNIN structure

Abstract

Efficient production of high value-added chemicals and biofuels via low-temperature chemoselective HDO of lignin derivatives in water is still a challenge. Here, we construct a low-cost, active and stable Pd/PCE catalyst using phosphoric acid-modified commercial Celite (PCE) as the support, and this catalyst exhibits excellent activity in low-temperature HDO of vanillin as well as other lignin derivatives in water. The superior catalytic performance is due to the presence of P species on the surface of Pd/PCE, accelerating the selective conversion of the intermediate into the final product. Detailed experimental and mechanistic studies reveal that the rapid conversion of the intermediate to the final product proceeds via a free-radical process in an interfacial microenvironment created by intimate interacting between the P species and Pd NPs. The insights of this work provide a new low-cost catalytic system for efficient production of valuable chemicals and future biofuels from lignin derivatives. [ABSTRACT FROM AUTHOR]

Published

2022