Research progress of amidoxime uranium adsorption materials

Jianwei ZHANG; Bo TIAN; Jinfeng LI; Zhigang LI; Nan ZHANG; Tuo LI; Zhixin LIU; Yuanjie SUN; Hongtao ZHAO

doi:10.11889/j.1000-3436.2022-0099

Journals >Journal of Radiation Research and Radiation Processing >Volume 41 >Issue 1 >Page 010101 > Article

Journal of Radiation Research and Radiation Processing
Vol. 41, Issue 1, 010101 (2023)

Research progress of amidoxime uranium adsorption materials

Jianwei ZHANG¹, Bo TIAN¹, Jinfeng LI¹, Zhigang LI¹, Nan ZHANG¹, Tuo LI¹, Zhixin LIU^1、2, Yuanjie SUN¹, and Hongtao ZHAO^1、*

Author Affiliations

¹Heilongjiang Institute of Atomic Energy, Harbin 150081, China

²Yantai Research Institute of Harbin Engineering University, Yantai 264006, China

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DOI: 10.11889/j.1000-3436.2022-0099 Cite this Article

Jianwei ZHANG, Bo TIAN, Jinfeng LI, Zhigang LI, Nan ZHANG, Tuo LI, Zhixin LIU, Yuanjie SUN, Hongtao ZHAO. Research progress of amidoxime uranium adsorption materials[J]. Journal of Radiation Research and Radiation Processing, 2023, 41(1): 010101 Copy Citation Text

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Fig. 1. Mechanism diagram of amidoxime preparation by cyano-hydroxylamine method

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Fig. 2. Amide (thioamide) -hydroxylamine method preparation-AO typical material^[21]

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Fig. 3. Preparation of amidoxime functionalized ZIF-90-AO^[31]

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Fig. 4. Reaction mechanism of PAO alkali treatment^[45]

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Fig. 5. Schematic illustration of the synthesis of In-N_x-C-R^[70]

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Fig. 6. (a) Structure of amidoxime-functionalized layered porous polymer^[56]; (b) diagram of U(VI) adsorption on PAN-NH₂-AO^[17]

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Fig. 7. Adsorption mechanism of MIL-101-SMA-AO^[83]

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Fig. 8. Three nucleophilic centers of amidoxime group^[88]

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Fig. 9. Coordination modes of amidoxime ligands with metal ions^[89]

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吸附剂 Adsorption	固液比 / (g·L^-1) Solid-liquid ratio	初始铀浓度 / (mg·L^-1) Initial uranium concentration	pH	平衡时间 / min Equilibrium time	最大吸附容量 / (mg·g^-1) Maximum adsorption capacity	文献 Reference
AGH	0.500	100	6.0	120	398.40	[58]
semi-IPN-PAO	0.010	32	6.0	36 000	1 279±14.50	[59]
KTG	0.010	35	5.0	360	512.60	[60]
PAO-CB	0.005	128	6.0	1 920	1 466.98	[51]
PAMSA	3.000	500	3.0	300	39.50	[61]
NC-PAO-DN	0.010	16	6.0	2 880	465±27.00	[62]
CP-PAO	0.005	16	8.0	9 600	465±26.36	[63]
GO-CMC-AO	0.500	100	6.0	120	327.86	[64]
GO-CS-AO	0.500	100	6.0	120	248.75	[64]
Zn²⁺-PAO	0.005	32	8.0	5 760	1 188±18.90	[57]
GMPAO	-	10	5.0	60	386.61	[65]
ZIF-90-AO	0.100	100	5.0	90	500.00	[31]
PAO@CHM	0.015	32	6.0	1 440	1 091.53	[66]
Fe@PDA-PAO	0.005	76	7.0	2 760	1 086.00	[67]
PAO-h-PEI	0.050	50	6.0	2 160	985.70	[68]

Table 1. Adsorption performance of amidoxime functional gel adsorbents

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