Hwiram Jeong scite author profile

Catalyst stability in the hydrodeoxygenation of vegetable oils is one of the big challenges for practical production of bio-jet fuel. Particularly, supported Pt catalysts are known to show activity decay because of Pt sintering and coking. Herein, we report superior long-term stability of the Pt catalyst in the hydrodeoxygenation of palm oil by using the mesoporous γ-Al2O3 (MA) support synthesized by solvent-deficient precipitation (SDP). When the MA was prepared with a molar ratio of water to aluminum isopropoxide being five, the space-time yield of the Pt catalyst was maintained at ca. 6.09 mol kg–1 h–1 for over 80 h, which was much better than those of the other Pt catalysts. This result was attributed to the two properties such as well-developed mesopores of a larger diameter than 20 nm in the fresh MA and strong metal–support interaction of Pt/MA. Therefore, the SDP method could endow the alumina support with textural and chemical benefits for stable performance. Furthermore, the hydrodeoxygenated palm oil was converted into paraffinic hydrocarbons mainly ranging from C8 to C15 with an iso- /n-paraffin ratio of ca. 6.8, perfectly meeting the standard specifications of bio-jet fuel.

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Direct synthesis of hydrogen peroxide over Pd/C catalyst prepared by selective adsorption deposition method

Seungsun

Jeong

Chung

2018

Journal of Catalysis

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State-of-the-art Catalysts for Hydrogen Storage in Liquid Organic Hydrogen Carriers

Kim

Jeong

Baik

et al. 2022

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Liquid organic hydrogen carrier (LOHC) systems have recently gained great importance as a means for hydrogen storage and transportation. Since fast hydrogen storage into H2-lean organic molecules under mild conditions is an urgent issue in LOHC systems, the present review highlights recent advances in hydrogenation catalysts for aromatic and heteroaromatic LOHC compounds. The activity results of supported noble metal (mainly, Ru and Pt) and transition metal (typically, Ni) catalysts are discussed along with key catalyst properties including metal dispersion, H2 and substrate adsorption capacities, and hydrogen spillover by strong metal-support interaction. This contribution will serve as a guide to design and synthesize an efficient and durable hydrogenation catalyst towards practical LOHC systems in the near future.

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Hwiram Jeong

Comparison of activity and stability of supported Ni2P and Pt catalysts in the hydroprocessing of palm oil into normal paraffins

Benefits of the SiO2-supported nickel phosphide catalyst on ethylene oligomerization

Superior Long-Term Stability of a Mesoporous Alumina-Supported Pt Catalyst in the Hydrodeoxygenation of Palm Oil

Direct synthesis of hydrogen peroxide over Pd/C catalyst prepared by selective adsorption deposition method

State-of-the-art Catalysts for Hydrogen Storage in Liquid Organic Hydrogen Carriers

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