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Aqueous-Phase Cellulose Hydrolysis over Zeolite HY Nanocrystals Grafted on Anatase Titania Nanofibers (2020)
Journal Article
Shan, L., Yan, J., Wang, Y., Ke, X., Cai, J., Yu, S., Lee, A. F., Gu, X., & Zhang, X. (2021). Aqueous-Phase Cellulose Hydrolysis over Zeolite HY Nanocrystals Grafted on Anatase Titania Nanofibers. Catalysis Letters, https://doi.org/10.1007/s10562-020-03402-w

© 2020, Springer Science+Business Media, LLC, part of Springer Nature. Acid-catalyzed aqueous-phase hydrolysis of cellulose was investigated over zeolite HY nanocrystals grafted on anantase titania nanofibres (HY-TiO2). H-exchanged NaY zeolite nanocr... Read More about Aqueous-Phase Cellulose Hydrolysis over Zeolite HY Nanocrystals Grafted on Anatase Titania Nanofibers.

Complex emulsions for shape control based on mass transfer and phase separation (2020)
Journal Article
Zhang, F., Jiang, L., Zeng, C., Wang, C., Wang, J., Ke, X., & Zhang, L. (2020). Complex emulsions for shape control based on mass transfer and phase separation. Soft matter, 16(25), 5981-5989. https://doi.org/10.1039/d0sm00862a

Complex emulsions are used to fabricate new morphologies of multiple Janus droplets, evolving from non-engulfing to complete engulfing core/shell configuration. The produced droplets contain an aqueous phase of dextran (DEX) solution and an oil phase... Read More about Complex emulsions for shape control based on mass transfer and phase separation.

An overview of Cu-based heterogeneous electrocatalysts for CO2 reduction (2020)
Journal Article
Zhao, J., Xue, S., Barber, J., Zhou, Y., Meng, J., & Ke, X. (2020). An overview of Cu-based heterogeneous electrocatalysts for CO2 reduction. Journal of Materials Chemistry A, 8(9), 4700-4734. https://doi.org/10.1039/c9ta11778d

The electrochemical (EC) reduction of CO2 is a promising approach for value-added fuel or chemical production. Cu-based electrodes have been extensively used as a ‘star’ material for CO2 reduction to hydrocarbons. This review mainly focuses on the re... Read More about An overview of Cu-based heterogeneous electrocatalysts for CO2 reduction.