The complexes of bisphosphonate and magnetite nanoparticles to remove uranyl ions from aqueous phase

L. Wang, Z. Yang, J. Gao, Kaitian Xu, H. Gu, B. Zhang, X. Zhang, B. Xu

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Using tetraethyl-3-amino-propane-1,1-bisphosphonate (BP) as the functional molecule, we functionalized Fe3O4 magnetic nanoparticles via dopamine (DA) linkage to create a system with an Fe3O 4-DA-BP nanostructure, which possesses high specificity for removing uranyl ions from water or blood. This work demonstrates that magnetic nanoparticles, combined with specific receptor-ligand interactions, promise a sensitive and rapid platform for the detection, recovery, and decorporation of radioactive metal toxins from biological environment.

Original languageEnglish (US)
Title of host publicationWATER DYANMICS
Subtitle of host publication4th International Workshop on Water Dynamics
Pages87-92
Number of pages6
Volume898
DOIs
StatePublished - May 11 2007
Event4th International Workshop on Water Dynamics - Sendai, Japan
Duration: Nov 7 2006Nov 8 2006

Other

Other4th International Workshop on Water Dynamics
CountryJapan
CitySendai
Period11/7/0611/8/06

Fingerprint

dopamine
magnetite
nanoparticles
linkages
propane
blood
ions
platforms
recovery
ligands
metals
water
molecules
interactions

All Science Journal Classification (ASJC) codes

  • Physics and Astronomy(all)

Cite this

Wang, L., Yang, Z., Gao, J., Xu, K., Gu, H., Zhang, B., ... Xu, B. (2007). The complexes of bisphosphonate and magnetite nanoparticles to remove uranyl ions from aqueous phase. In WATER DYANMICS: 4th International Workshop on Water Dynamics (Vol. 898, pp. 87-92) https://doi.org/10.1063/1.2721255
Wang, L. ; Yang, Z. ; Gao, J. ; Xu, Kaitian ; Gu, H. ; Zhang, B. ; Zhang, X. ; Xu, B. / The complexes of bisphosphonate and magnetite nanoparticles to remove uranyl ions from aqueous phase. WATER DYANMICS: 4th International Workshop on Water Dynamics. Vol. 898 2007. pp. 87-92
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abstract = "Using tetraethyl-3-amino-propane-1,1-bisphosphonate (BP) as the functional molecule, we functionalized Fe3O4 magnetic nanoparticles via dopamine (DA) linkage to create a system with an Fe3O 4-DA-BP nanostructure, which possesses high specificity for removing uranyl ions from water or blood. This work demonstrates that magnetic nanoparticles, combined with specific receptor-ligand interactions, promise a sensitive and rapid platform for the detection, recovery, and decorporation of radioactive metal toxins from biological environment.",
author = "L. Wang and Z. Yang and J. Gao and Kaitian Xu and H. Gu and B. Zhang and X. Zhang and B. Xu",
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Wang, L, Yang, Z, Gao, J, Xu, K, Gu, H, Zhang, B, Zhang, X & Xu, B 2007, The complexes of bisphosphonate and magnetite nanoparticles to remove uranyl ions from aqueous phase. in WATER DYANMICS: 4th International Workshop on Water Dynamics. vol. 898, pp. 87-92, 4th International Workshop on Water Dynamics, Sendai, Japan, 11/7/06. https://doi.org/10.1063/1.2721255

The complexes of bisphosphonate and magnetite nanoparticles to remove uranyl ions from aqueous phase. / Wang, L.; Yang, Z.; Gao, J.; Xu, Kaitian; Gu, H.; Zhang, B.; Zhang, X.; Xu, B.

WATER DYANMICS: 4th International Workshop on Water Dynamics. Vol. 898 2007. p. 87-92.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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AU - Xu, Kaitian

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AU - Zhang, B.

AU - Zhang, X.

AU - Xu, B.

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N2 - Using tetraethyl-3-amino-propane-1,1-bisphosphonate (BP) as the functional molecule, we functionalized Fe3O4 magnetic nanoparticles via dopamine (DA) linkage to create a system with an Fe3O 4-DA-BP nanostructure, which possesses high specificity for removing uranyl ions from water or blood. This work demonstrates that magnetic nanoparticles, combined with specific receptor-ligand interactions, promise a sensitive and rapid platform for the detection, recovery, and decorporation of radioactive metal toxins from biological environment.

AB - Using tetraethyl-3-amino-propane-1,1-bisphosphonate (BP) as the functional molecule, we functionalized Fe3O4 magnetic nanoparticles via dopamine (DA) linkage to create a system with an Fe3O 4-DA-BP nanostructure, which possesses high specificity for removing uranyl ions from water or blood. This work demonstrates that magnetic nanoparticles, combined with specific receptor-ligand interactions, promise a sensitive and rapid platform for the detection, recovery, and decorporation of radioactive metal toxins from biological environment.

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Wang L, Yang Z, Gao J, Xu K, Gu H, Zhang B et al. The complexes of bisphosphonate and magnetite nanoparticles to remove uranyl ions from aqueous phase. In WATER DYANMICS: 4th International Workshop on Water Dynamics. Vol. 898. 2007. p. 87-92 https://doi.org/10.1063/1.2721255