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Enhancing reducing ability of α-zein by fibrillation for synthesis of Au nanocrystals with continuous flow catalysis.Chen, Y. , Wu, X. , Lv, L. , Li, F. , Liu, Z. , Kong, Q. , Li C. (2016) Journal of Colloid and Interface Science, S0021979716307561.Green low-cost synthesis and efficient recyclability are two major hindrances for Au nanocrystals as catalysts applying in diverse industrial reaction processes. By the use of low-cost α-zein (i.e. a major storage protein of corn) as the reductant......
Single-crystal Au microflakes modulated by amino acids and their sensing and catalytic properties.Li, M., Wu, X., Zhou, J., Kong, Q., & Li, C. (2016). Journal of colloid and interface science, 467, 115-120.Single-crystal Au microflakes with the planar area over 103 μm2 (i.e. being accessible to the human eye resolution) were synthesized in an environment-friendly route by directing two-dimensional growth of Au nanocrystals into macroscopic scales wi......
Modulating Zn(OH)2 rods by marine alginate for templates of hybrid tubes with catalytic and antimicrobial properties. Lv, L., Wu, X., Li, M., Zong, L., Chen, Y., You, J., & Li, C. (2016). ACS Sustainable Chemistry & Engineering, 5(1), 862-868.With the help of marine alginate, Zn(OH)2 nanorods were synthesized under mild conditions (e.g., room temperature and atmospheric pressure) through a one-step, green, and scalable method, in which both the morphologies (e.g., nanorods and nanoflak......
Amyloid-graphene oxide as immobilization platform of Au nanocatalysts and enzymes for improved glucose-sensing activity. Wu, X., Li, M., Li, Z., Lv, L., Zhang, Y., & Li, C. (2017). Journal of colloid and interface science, 490, 336-342.Two-dimensional GO nanosheets and one-dimensional lysozyme nanofibrils were hybridized through electrostatic interaction to get a novel amyloid-GO composite, which promised a biocompatible immobilization platform for Au nanocatalysts as well as en......
Alginate-assisted synthesis of hollow micro fi bers assembled by SnO2 nanoparticles. Zhao, Y., Li, M., Qiu, J., Kong, Q., Zhang, Y., & Li, C. (2016). Materials & Design, 101, 317-322.A novel alginate-involving method has been developed to prepare hollow SnO2 micro fibers, in which a wet spinning process was combined with pyrolysis oxidation to facilitate scalable production. The resulting hollow SnO2 micro fibers consisted of ......
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