期刊论文

Wu, Yiqiang;Zuo, YF

英文

Chemical Engineering Journal

1385-8947

2023

474

145666

10.1016/j.cej.2023.145666

Fig. 1a shows the topological structure construction mechanism of the composites. The bamboo fiber, as the supporting skeleton of the composites, had few active groups. The hyperbranching treatment of the bamboo fiber increased the number of active branches and greatly increased the number of active sites (Fig. 2b α) [19], [20]. In addition, calcium lignosulfonate was used to increase the fluidity of magnesium oxychloride cementitious material slurry. Sodium lignosulfonate was adsorbed on the

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The demand of thermal energy conservation and regulation using inorganic composites in green low-carbon modern society is urgent. However, the organic-inorganic heterogeneous interfacial compatibility in traditional inorganic composites mainly depends on the loose crystal layers via hydrogen bonding, which is prone to faults and the hole wall damaged under strong forces. Here, a molecular topological structure was constructed in the composites system. Our process includes generating dendritic molecular chains on bamboo fiber, activating crystals to increase active sites, and inducing the confi...