Preparation and adsorption performance of 5-azacytosine-functionalized hydrothermal carbon for selective solid-phase extraction of uranium

[Display omitted] ► Hydrothermal carbon (HTC) was chosen as matrix of solid-phase extractant. ► A multidentate N-donor ligand, 5-azacytosine, was first grafted on HTC matrix. ► The adsorbent shows high capacity (408mgg−1) and distinct selectivity for U(VI). ► Ionic strength up to 5.0molL−1 NaNO3 had...

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Published in	Journal of colloid and interface science Vol. 386; no. 1; pp. 291 - 299
Main Authors	Song, Qiang, Ma, Lijian, Liu, Jun, Bai, Chiyao, Geng, Junxia, Wang, Hang, Li, Bo, Wang, Liyue, Li, Shoujian
Format	Journal Article
Language	English
Published	Amsterdam Elsevier Inc 15.11.2012 Elsevier
Subjects	5-Azacytosine Adsorbents Adsorption Carbon Carbon - chemistry cations chemical structure Chemistry Cytosine - analogs & derivatives Cytosine - chemistry equations Exact sciences and technology Extraction General and physical chemistry Hot Temperature Hydrothermal carbon industrial effluents ionic strength Mathematical analysis Microspheres Molecular Structure Nanostructure Selective separation sodium nitrate Solid Phase Extraction Surface physical chemistry temperature Uranium Uranium - chemistry X-radiation Selective separation Hydrothermal carbon 5-Azacytosine Uranium Solid-phase extraction Solid phase extraction Separation Adsorption capacity X ray Selectivity Grafting pH Photoelectron spectrometry Chemical properties Adsorbent Microsphere Chemical structure Equation Ions Carbon Equilibrium Adsorption Ionic strength Preparation Uranyl Hydrothermal condition Effluent
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Abstract	[Display omitted] ► Hydrothermal carbon (HTC) was chosen as matrix of solid-phase extractant. ► A multidentate N-donor ligand, 5-azacytosine, was first grafted on HTC matrix. ► The adsorbent shows high capacity (408mgg−1) and distinct selectivity for U(VI). ► Ionic strength up to 5.0molL−1 NaNO3 had only slight effect on the adsorption. ► The process is fast, endothermic, spontaneous, and pseudo-second-order chemisorption. A new solid-phase extraction adsorbent was prepared by employing a two-step “grafting from” approach to anchor a multidentate N-donor ligand, 5-azacytosine onto hydrothermal carbon (HTC) microspheres for highly selective separation of U(VI) from multi-ion system. Fourier-transform infrared and X-ray photoelectron spectroscopies were used to analyze the chemical structure and properties of resultant HTC-based materials. The adsorption behavior of U(VI) onto the adsorbent was investigated as functions of pH, contact time, ionic strength, temperature, and initial U(VI) concentration using batch adsorption experiments. The U(VI) adsorption was of pH dependent. The adsorption achieved equilibrium within 30min and followed a pseudo-second-order equation. The adsorption amount of U(VI) increased with raising the temperature from 283.15 to 333.15K. Remarkably, high ionic strength up to 5.0molL−1 NaNO3 had only slight effect on the adsorption. The maximum U(VI) adsorption capacity reached 408.36mgg−1 at 333.15K and pH 4.5. Results from batch experiments in a simulated nuclear industrial effluent, containing 13 co-existing cations including uranyl ion, showed a high adsorption capacity and selectivity of the adsorbent for uranium (0.63mmolUg−1, accounting for about 67% of the total adsorption amount).
AbstractList	A new solid-phase extraction adsorbent was prepared by employing a two-step "grafting from" approach to anchor a multidentate N-donor ligand, 5-azacytosine onto hydrothermal carbon (HTC) microspheres for highly selective separation of U(VI) from multi-ion system. Fourier-transform infrared and X-ray photoelectron spectroscopies were used to analyze the chemical structure and properties of resultant HTC-based materials. The adsorption behavior of U(VI) onto the adsorbent was investigated as functions of pH, contact time, ionic strength, temperature, and initial U(VI) concentration using batch adsorption experiments. The U(VI) adsorption was of pH dependent. The adsorption achieved equilibrium within 30 min and followed a pseudo-second-order equation. The adsorption amount of U(VI) increased with raising the temperature from 283.15 to 333.15K. Remarkably, high ionic strength up to 5.0 mol L(-1) NaNO(3) had only slight effect on the adsorption. The maximum U(VI) adsorption capacity reached 408.36 mg g(-1) at 333.15K and pH 4.5. Results from batch experiments in a simulated nuclear industrial effluent, containing 13 co-existing cations including uranyl ion, showed a high adsorption capacity and selectivity of the adsorbent for uranium (0.63 mmol U g(-1), accounting for about 67% of the total adsorption amount). A new solid-phase extraction adsorbent was prepared by employing a two-step "grafting from" approach to anchor a multidentate N-donor ligand, 5-azacytosine onto hydrothermal carbon (HTC) microspheres for highly selective separation of U(VI) from multi-ion system. Fourier-transform infrared and X-ray photoelectron spectroscopies were used to analyze the chemical structure and properties of resultant HTC-based materials. The adsorption behavior of U(VI) onto the adsorbent was investigated as functions of pH, contact time, ionic strength, temperature, and initial U(VI) concentration using batch adsorption experiments. The U(VI) adsorption was of pH dependent. The adsorption achieved equilibrium within 30 min and followed a pseudo-second-order equation. The adsorption amount of U(VI) increased with raising the temperature from 283.15 to 333.15 K. Remarkably, high ionic strength up to 5.0 mol L-1 NaNO3 had only slight effect on the adsorption. The maximum U(VI) adsorption capacity reached 408.36 mg g-1 at 333.15 K and pH 4.5. Results from batch experiments in a simulated nuclear industrial effluent, containing 13 co-existing cations including uranyl ion, showed a high adsorption capacity and selectivity of the adsorbent for uranium (0.63 mmol U g-1, accounting for about 67% of the total adsorption amount). A new solid-phase extraction adsorbent was prepared by employing a two-step “grafting from” approach to anchor a multidentate N-donor ligand, 5-azacytosine onto hydrothermal carbon (HTC) microspheres for highly selective separation of U(VI) from multi-ion system. Fourier-transform infrared and X-ray photoelectron spectroscopies were used to analyze the chemical structure and properties of resultant HTC-based materials. The adsorption behavior of U(VI) onto the adsorbent was investigated as functions of pH, contact time, ionic strength, temperature, and initial U(VI) concentration using batch adsorption experiments. The U(VI) adsorption was of pH dependent. The adsorption achieved equilibrium within 30min and followed a pseudo-second-order equation. The adsorption amount of U(VI) increased with raising the temperature from 283.15 to 333.15K. Remarkably, high ionic strength up to 5.0molL⁻¹ NaNO₃ had only slight effect on the adsorption. The maximum U(VI) adsorption capacity reached 408.36mgg⁻¹ at 333.15K and pH 4.5. Results from batch experiments in a simulated nuclear industrial effluent, containing 13 co-existing cations including uranyl ion, showed a high adsorption capacity and selectivity of the adsorbent for uranium (0.63mmolUg⁻¹, accounting for about 67% of the total adsorption amount). [Display omitted] ► Hydrothermal carbon (HTC) was chosen as matrix of solid-phase extractant. ► A multidentate N-donor ligand, 5-azacytosine, was first grafted on HTC matrix. ► The adsorbent shows high capacity (408mgg−1) and distinct selectivity for U(VI). ► Ionic strength up to 5.0molL−1 NaNO3 had only slight effect on the adsorption. ► The process is fast, endothermic, spontaneous, and pseudo-second-order chemisorption. A new solid-phase extraction adsorbent was prepared by employing a two-step “grafting from” approach to anchor a multidentate N-donor ligand, 5-azacytosine onto hydrothermal carbon (HTC) microspheres for highly selective separation of U(VI) from multi-ion system. Fourier-transform infrared and X-ray photoelectron spectroscopies were used to analyze the chemical structure and properties of resultant HTC-based materials. The adsorption behavior of U(VI) onto the adsorbent was investigated as functions of pH, contact time, ionic strength, temperature, and initial U(VI) concentration using batch adsorption experiments. The U(VI) adsorption was of pH dependent. The adsorption achieved equilibrium within 30min and followed a pseudo-second-order equation. The adsorption amount of U(VI) increased with raising the temperature from 283.15 to 333.15K. Remarkably, high ionic strength up to 5.0molL−1 NaNO3 had only slight effect on the adsorption. The maximum U(VI) adsorption capacity reached 408.36mgg−1 at 333.15K and pH 4.5. Results from batch experiments in a simulated nuclear industrial effluent, containing 13 co-existing cations including uranyl ion, showed a high adsorption capacity and selectivity of the adsorbent for uranium (0.63mmolUg−1, accounting for about 67% of the total adsorption amount).
Author	Li, Bo Geng, Junxia Li, Shoujian Bai, Chiyao Ma, Lijian Wang, Hang Song, Qiang Liu, Jun Wang, Liyue
Author_xml	– sequence: 1 givenname: Qiang surname: Song fullname: Song, Qiang – sequence: 2 givenname: Lijian surname: Ma fullname: Ma, Lijian – sequence: 3 givenname: Jun surname: Liu fullname: Liu, Jun – sequence: 4 givenname: Chiyao surname: Bai fullname: Bai, Chiyao – sequence: 5 givenname: Junxia surname: Geng fullname: Geng, Junxia – sequence: 6 givenname: Hang surname: Wang fullname: Wang, Hang – sequence: 7 givenname: Bo surname: Li fullname: Li, Bo – sequence: 8 givenname: Liyue surname: Wang fullname: Wang, Liyue – sequence: 9 givenname: Shoujian surname: Li fullname: Li, Shoujian email: sjli000616@scu.edu.cn
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Keywords	Selective separation Hydrothermal carbon 5-Azacytosine Uranium Solid-phase extraction Solid phase extraction Separation Adsorption capacity X ray Selectivity Grafting pH Photoelectron spectrometry Chemical properties Adsorbent Microsphere Chemical structure Equation Ions Carbon Equilibrium Adsorption Ionic strength Preparation Uranyl Hydrothermal condition Effluent
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Snippet	[Display omitted] ► Hydrothermal carbon (HTC) was chosen as matrix of solid-phase extractant. ► A multidentate N-donor ligand, 5-azacytosine, was first grafted... A new solid-phase extraction adsorbent was prepared by employing a two-step “grafting from” approach to anchor a multidentate N-donor ligand, 5-azacytosine... A new solid-phase extraction adsorbent was prepared by employing a two-step "grafting from" approach to anchor a multidentate N-donor ligand, 5-azacytosine...
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SubjectTerms	5-Azacytosine Adsorbents Adsorption Carbon Carbon - chemistry cations chemical structure Chemistry Cytosine - analogs & derivatives Cytosine - chemistry equations Exact sciences and technology Extraction General and physical chemistry Hot Temperature Hydrothermal carbon industrial effluents ionic strength Mathematical analysis Microspheres Molecular Structure Nanostructure Selective separation sodium nitrate Solid Phase Extraction Surface physical chemistry temperature Uranium Uranium - chemistry X-radiation
Title	Preparation and adsorption performance of 5-azacytosine-functionalized hydrothermal carbon for selective solid-phase extraction of uranium
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