Hydrothermal synthesis of Lewis acid Y2O3 cubes and flowers for the removal of phospholipids from soybean oil

Biofuels have attracted significant research attention in recent years due to various energy shortages. However, the presence of phospholipid impurities in biofuels prevents their use in diesel engines. In our previous study we developed Lewis-acid ZrO 2 materials for the adsorption of phospholipids...

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Veröffentlicht in:CrystEngComm 2013-01, Vol.15 (33), p.656-651
Hauptverfasser: Lin, Yi-Feng, Chen, Jhen-Huei, Hsu, Shih-Hong, Chung, Tsair-Wang
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Chen, Jhen-Huei
Hsu, Shih-Hong
Chung, Tsair-Wang
description Biofuels have attracted significant research attention in recent years due to various energy shortages. However, the presence of phospholipid impurities in biofuels prevents their use in diesel engines. In our previous study we developed Lewis-acid ZrO 2 materials for the adsorption of phospholipids in oil solutions. In this work, for the first time, we describe the development of strong Lewis-acid Y 2 O 3 novel structures, such as Y 2 O 3 cubes and Y 2 O 3 flowers for the phospholipid removal in soybean oil solution. This is the first report for the discussion of Y 2 O 3 cubes and flowers. The relevant growth mechanism for the cubes and flowers was also discussed in this study. The as-prepared Y 2 O 3 flowers exhibit better performance in phospholipid removal than Y 2 O 3 cubes due to the larger specific surface area of the Y 2 O 3 flowers. This work also provides a feasible method for using Y 2 O 3 novel structures to remove phospholipids from plant oils that is suitable for biofuel applications. This work provides a method for using Y 2 O 3 structures to remove phospholipids from plant oils that is suitable for biofuel applications.
doi_str_mv 10.1039/c3ce40791h
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title Hydrothermal synthesis of Lewis acid Y2O3 cubes and flowers for the removal of phospholipids from soybean oil
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