Page 97 - Read Online
P. 97
Xing et al. Microstructures 2023;3:2023031 https://dx.doi.org/10.20517/microstructures.2023.11 Page 35 of 35
198. Niu B, Xin W, Qian Y, Kong XY, Jiang L, Wen L. Covalent organic frameworks embedded in polystyrene membranes for ion
sieving. Chem Commun 2022;58:5403-6. DOI PubMed
199. Wang Z, Huang L, Dong X, et al. Ion sieving in graphene oxide membrane enables efficient actinides/lanthanides separation. Nat
Commun 2023;14:261. DOI PubMed PMC
200. He M, Liu Z, Wang L, et al. Carboxymethylcellulose (CMC)/glutaraldehyde (GA)-modified Ti C T membrane and its efficient ion
3 2 x
sieving performance. J Membr Sci 2023;675:121541. DOI
201. Leong ZY, Han Z, Wang G, Li D, Yang SA, Yang HY. Electric field modulated ion-sieving effects of graphene oxide membranes. J
Mater Chem A 2021;9:244-53. DOI
202. Cao H, Xia Y, Lu Y, et al. MOF-801 polycrystalline membrane with sub-10 nm polymeric assembly layer for ion sieving and flow
battery storage. AIChE J 2022;68:e17657. DOI
203. Bing S, Xian W, Chen S, et al. Bio-inspired construction of ion conductive pathway in covalent organic framework membranes for
efficient lithium extraction. Matter 2021;4:2027-38. DOI
204. Su S, Zhang Y, Peng S, et al. Multifunctional graphene heterogeneous nanochannel with voltage-tunable ion selectivity. Nat Commun
2022;13:4894. DOI PubMed PMC
205. Liang S, Wang S, Chen L, Fang H. Controlling interlayer spacings of graphene oxide membranes with cationic for precise sieving of
mono-/multi-valent ions. Sep Purif Technol 2020;241:116738. DOI