Synthesis of Cellulose Beads from Wastepaper via the Microemulsion and Precipitation Method
Author:
Publisher
Springer Nature Singapore
Link
https://link.springer.com/content/pdf/10.1007/978-981-99-9164-8_11
Reference33 articles.
1. Baigorria E, Sanchez LM, Primiano RPO, Alvarez VA (2023) Recent trends in eco-friendly materials for agrochemical pollutants removal: polysaccharide-based nanocomposite materials. Springer Nature, Singapore
2. Li H, Kruteva M, Mystek K, Dulle M, Ji W, Pettersson T, Wagberg L (2020) Macro- and microstructural evolution during drying of regenerated cellulose beads. ACS Nano 14(6):6774–6784
3. Qiao L, Li S, Li Y, Liu Y, Du K (2020) Fabrication of superporous cellulose beads via enhanced inner cross-linked linkages for high efficient adsorption of heavy metal ions. J Clean Prod 253:120017
4. Voon LK, Pang SC, Chin SF (2017) Optimizing delivery characteristics of curcumin as a model drug via tailoring mean diameter ranges of cellulose beads. Int J Polym Sci. 2017:1–10
5. Carvalho JPF, Silva ACQ, Silvestre AJD, Freire CSR, Vilela C (2021) Spherical cellulose micro and nanoparticles: a review of recent developments and applications. Nanomaterials 11(10):2744
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