Jiaxin Shen scite author profile

The zeolite Cu(I)Y is promising for adsorptive removal of thiophenic sulfur compounds from transportation fuels. However, its application is seriously hindered by the instability of Cu(I), which is easily oxidized to Cu(II) even under atmospheric environment due to the coexistence of moisture and oxygen. Here, we report the adjustment of zeolite microenvironment from hydrophilic to superhydrophobic status by coating polydimethylsiloxane (yielding Cu(I)Y@P), which isolates moisture entering the pores and subsequently stabilizes Cu(I) despite the presence of oxygen. Cu(I) in Cu(I)Y@P is stable upon exposure to humid atmosphere for 6 months, while almost all Cu(I) is oxidized to Cu(II) in Cu(I)Y for only 2 weeks. The optimized Cu(I)Y@P material after moisture exposure can remove 532 μmol g−1 of thiophene and is much superior to Cu(I)Y (116 μmol g−1), regardless of similar uptakes for unexposed adsorbents. Remarkably, Cu(I)Y@P shows excellent adsorption capacity of desulfurization for water-containing model fuel.

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Influence of curing temperature on autogenous shrinkage and cracking resistance of high-performance concrete at an early age

Shen

Jiang

Shen

et al. 2016

Construction and Building Materials

128

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Characterization of sustainable mortar containing high-quality recycled manufactured sand crushed from recycled coarse aggregate

Shen

Wang

et al. 2022

Cement and Concrete Composites

156

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Tensile creep and cracking resistance of concrete with different water-to-cement ratios at early age

Shen

Jiang

Wang

et al. 2017

Construction and Building Materials

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Jiaxin Shen

Enhancing oxidation resistance of Cu(I) by tailoring microenvironment in zeolites for efficient adsorptive desulfurization

Influence of curing temperature on autogenous shrinkage and cracking resistance of high-performance concrete at an early age

Characterization of sustainable mortar containing high-quality recycled manufactured sand crushed from recycled coarse aggregate

Tensile creep and cracking resistance of concrete with different water-to-cement ratios at early age

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