Study on cyclic crosslinked polyphosphazene microspheres and its adsorption behavior for uranium (VI)

Meixue Xu; Kaifa Liao; Mouwu Liu; Yi Tan; Yanfei Wang

doi:10.1051/e3sconf/202129003021

All issues

Volume 290 (2021)

E3S Web Conf., 290 (2021) 03021

References

Open Access

Issue		E3S Web Conf. Volume 290, 2021 2021 3^rd International Conference on Geoscience and Environmental Chemistry (ICGEC 2021)


Article Number		03021
Number of page(s)		4
Section		Environmental Energy Protection and Energy-Saving Sustainability
DOI		https://doi.org/10.1051/e3sconf/202129003021
Published online		14 July 2021

Bhalara P D, Punetha D, Balasubramanian K. A review of potential remediation techniques for uranium [Google Scholar]
(VI) ion retrieval from contaminated aqueous environment [J]. Journal of Environmental Chemical Engineering, 2014, 2(3): 1621-1634. [Google Scholar]
Hu e Ming, Shao Er Yan, Zhao Jing et al. Research progress of uranium containing wastewater treatment technology [J]. Hunan Journal of Ecological Sciences, 2016, 3 (1): 42-48 [Google Scholar]
Khamirchi R, Hosseini-Bandegharaei A, Alahabadi A, et al. Adsorption property of Br-PADAP-impregnated multiwall carbon nanotubes towards uranium and its performance in the selective separation and de termination of uranium in different environmental samples [J]. Ecotoxicology and Environment Safety, 2017, 150:136-143. [Google Scholar]
Yin L, Song S, Wang X, et al. Rationally designed c ore-shell and yolk-shell magnetic titanate nanosheet s for efficient U(VI) adsorption performance[J]. Env ironmental Pollution, 2018, 238:725-738. [Google Scholar]
Zarrougui R, Mdimagh R, Raouafi N. Highly efficient extraction and selective separation of uranium (VI) from transition metals using new class of undiluted ionic liquids based on H-phosphonate anions [J]. Journal of Hazardous Materials, 2017, 342:464. [Google Scholar]
Tan Juan. Adsorption properties of poly (cyclotripho sphazene-co-4,4 '- dihydroxydiphenylsulfone) for thorium (IV) and uranium (VI) [D]. 2018 [Google Scholar]
Lu Z, Sun Y, Song L, et al. Dihydroxy bezladely derivatives functionalized mesoporous silica SBA-15 for the sorption of U(VI) [J]. Journal of Radioanalytic al & Nuclear Chemistry, 2016, 310(1): 1-13. [Google Scholar]
Huynh J, Palacio R, Safizadeh F, et al. Adsorption o f Uranium over NH2-Functionalized Ordered Silica in Aqueous Solutions [J]. Acs Appl Mater Interfaces, 2018, 22: 35-38. [Google Scholar]
Giri, A. K, Patel, et al. Artificial neural network (ANN) approach for modelling of arsenic (III) biosorption from aqueous solution by living cells of Bacillus cereus biomass [J]. Chemical Engineering Journal, 2011, 178(24): 15-25. [Google Scholar]
Fu J, Chen Z, Wu X, et al. Hollow poly(cyclotriphos phazene-co-phloroglucinol) microspheres: An effective and selective adsorbent for the removal of cationic dyes from aqueous solution [J]. Chemical Engineering Journal, 2015, 281:42-52. [Google Scholar]

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[1] Bhalara P D, Punetha D, Balasubramanian K. A review of potential remediation techniques for uranium [Google Scholar]

[2] (VI) ion retrieval from contaminated aqueous environment [J]. Journal of Environmental Chemical Engineering, 2014, 2(3): 1621-1634. [Google Scholar]

[3] Hu e Ming, Shao Er Yan, Zhao Jing et al. Research progress of uranium containing wastewater treatment technology [J]. Hunan Journal of Ecological Sciences, 2016, 3 (1): 42-48 [Google Scholar]

[4] Khamirchi R, Hosseini-Bandegharaei A, Alahabadi A, et al. Adsorption property of Br-PADAP-impregnated multiwall carbon nanotubes towards uranium and its performance in the selective separation and de termination of uranium in different environmental samples [J]. Ecotoxicology and Environment Safety, 2017, 150:136-143. [Google Scholar]

[5] Yin L, Song S, Wang X, et al. Rationally designed c ore-shell and yolk-shell magnetic titanate nanosheet s for efficient U(VI) adsorption performance[J]. Env ironmental Pollution, 2018, 238:725-738. [Google Scholar]

[6] Zarrougui R, Mdimagh R, Raouafi N. Highly efficient extraction and selective separation of uranium (VI) from transition metals using new class of undiluted ionic liquids based on H-phosphonate anions [J]. Journal of Hazardous Materials, 2017, 342:464. [Google Scholar]

[7] Tan Juan. Adsorption properties of poly (cyclotripho sphazene-co-4,4 '- dihydroxydiphenylsulfone) for thorium (IV) and uranium (VI) [D]. 2018 [Google Scholar]

[8] Lu Z, Sun Y, Song L, et al. Dihydroxy bezladely derivatives functionalized mesoporous silica SBA-15 for the sorption of U(VI) [J]. Journal of Radioanalytic al & Nuclear Chemistry, 2016, 310(1): 1-13. [Google Scholar]

[9] Huynh J, Palacio R, Safizadeh F, et al. Adsorption o f Uranium over NH2-Functionalized Ordered Silica in Aqueous Solutions [J]. Acs Appl Mater Interfaces, 2018, 22: 35-38. [Google Scholar]

[10] Giri, A. K, Patel, et al. Artificial neural network (ANN) approach for modelling of arsenic (III) biosorption from aqueous solution by living cells of Bacillus cereus biomass [J]. Chemical Engineering Journal, 2011, 178(24): 15-25. [Google Scholar]

[11] Fu J, Chen Z, Wu X, et al. Hollow poly(cyclotriphos phazene-co-phloroglucinol) microspheres: An effective and selective adsorbent for the removal of cationic dyes from aqueous solution [J]. Chemical Engineering Journal, 2015, 281:42-52. [Google Scholar]