Facile preparation and adsorption performance of graphene oxide-manganese oxide composite for uranium

Yang, Anshu; Zhu, Yukuan; Huang, Chin‐Pao

doi:10.1038/s41598-018-27111-y

Cited by 35 publications

(9 citation statements)

References 57 publications

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“…Among adsorption kinetic mathematical models, the low R 2 values calculated in the pseudo-first-order model (0.35–0.82), with vast difference between estimated qe and experimental qt ( Table 2 ), discarded this model for describing adsorption phenomena on the rGO surface. However, the pseudo-second-order model showed high R 2 values (0.93–0.99) and convergence between the estimated qe and the experimental qt values ( Table 2 ); therefore, this model can be considered the best kinetic model to define the studied protein adsorption phenomena on the rGO surface [ 58 , 59 ]. Interestingly, pseudo-second-order constant K 2 reduced while hydrophilicity increased with the lowest K 2 for elastin (2.16·µg −1 ·in −1 ) and with the highest for collagen (27.27 µg·µg −1 ·min −1 ).…”

Section: Resultsmentioning

confidence: 99%

Modulation of Conductivity of Alginate Hydrogels Containing Reduced Graphene Oxide through the Addition of Proteins

et al. 2021

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Modifying hydrogels in order to enhance their conductivity is an exciting field with applications in cardio and neuro-regenerative medicine. Therefore, we have designed hybrid alginate hydrogels containing uncoated and protein-coated reduced graphene oxide (rGO). We specifically studied the adsorption of three different proteins, BSA, elastin, and collagen, and the outcomes when these protein-coated rGO nanocomposites are embedded within the hydrogels. Our results demonstrate that BSA, elastin, and collagen are adsorbed onto the rGO surface, through a non-spontaneous phenomenon that fits Langmuir and pseudo-second-order adsorption models. Protein-coated rGOs are able to preclude further adsorption of erythropoietin, but not insulin. Collagen showed better adsorption capacity than BSA and elastin due to its hydrophobic nature, although requiring more energy. Moreover, collagen-coated rGO hybrid alginate hydrogels showed an enhancement in conductivity, showing that it could be a promising conductive scaffold for regenerative medicine.

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Section: Resultsmentioning

confidence: 99%

Modulation of Conductivity of Alginate Hydrogels Containing Reduced Graphene Oxide through the Addition of Proteins

et al. 2021

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“…The excellent adsorption performance of two-dimensional materials(e.g. grapheme oxide-manganese oxide [49], MXene [50], MoS 2 [51] LDHs [52, 53]) in the field of radioactive adsorption indicates that increasing the specific surface area of materials is an extremely effective means to improve their adsorption performance. Li’s group [40] dispersed phosphate groups on the graphene oxide (PGO) nanosheets with a chemical process to increase the usage of phosphate group.…”

Section: Introductionmentioning

confidence: 99%

Ultra-thin iron phosphate nanosheets for high efficient U(VI) adsorption

Xiao

et al. 2019

Journal of Hazardous Materials

104

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In this study, the ultra-thin iron phosphate Fe7(PO4)6 nanosheets (FP1) with fine-controlled morphology, has been designed as a new two-dimensional (2D) material for uranium adsorption. Due to its unique high accessible 2D structure, atom-dispersed phosphate/iron anchor groups and high specific surface area (27.77 m2·g−1), FP1 shows an extreme-high U(VI) adsorption capacity (704.23 mg·g−1 at 298 K, pH = 5.0 ± 0.1), which is about 27 times of conventional 3D Fe7(PO4)6 (24.51 mg·g−1-sample FP2) and higher than most 2D absorbent materials, showing a great value in the treatment of radioactive wastewater. According to the adsorption results, the sorption between U(VI) and FP1 is spontaneous and endothermic, and can be conformed to single molecular layer adsorption. Based on the analyses of FESEM, EDS, Mapping, FT-IR and XRD after adsorption, the possibile adsorption mechanism can be described as a Monolayer Surface Complexation and Stacking mode (MSCS-Mode). Additionally, the research not only provide a novel preparing method for 2D phosphate materials but also pave a new pathway to study other two-dimensional adsorption materials.

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“…Among the different methods for removing uranium from wastewater, the sorption method has been proven to be the most effective . Numerous sorbents have been reported in the literature, for example, graphene oxide, − metal–organic frameworks (MOFs), − mesoporous silica nanospheres, polymers, , magnesium oxide foam, and chitosan …”

Section: Introductionmentioning

confidence: 99%

Fast and High Amount of U(VI) Uptake by Functional Magnetic Carbon Nanotubes with Phosphate Group

Liu

Zhao

Yuan

et al. 2018

Ind. Eng. Chem. Res.

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In the present study, PZS-TPP/CNT/Fe 3 O 4 was fabricated by carbon nantubes (CNTs) with polyphosphazene and magnetic particles for application in U(VI) removal. The structure of the synthesized composite was characterized by Fourier transform infrared (FTIR) spectroscopy, scanning electron microscopy (SEM), a vibrating sample magnetometer (VSM), and X-ray photoelectron spectroscopy (XPS). Studies of the effects of pH values, U(VI) concentration, contact time, and adsorption temperature including competing ions and reusability to the uranium adsorption were conducted. The calculated q max from the Langmuir model was 606.06 mg/g. The possible mechanism was investigated by XPS about the uranium-adsorbed PZS-TPP/CNT/ Fe 3 O 4 , which revealed that the adsorption capacity was mainly due to the coordination ability of phosphoryl groups and nitrogen atoms in the polyphosphazene skeleton. This new material is promising for separation and safe disposal of radionuclides in water.

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Facile preparation and adsorption performance of graphene oxide-manganese oxide composite for uranium

Cited by 35 publications

References 57 publications

Modulation of Conductivity of Alginate Hydrogels Containing Reduced Graphene Oxide through the Addition of Proteins

Modulation of Conductivity of Alginate Hydrogels Containing Reduced Graphene Oxide through the Addition of Proteins

Ultra-thin iron phosphate nanosheets for high efficient U(VI) adsorption

Fast and High Amount of U(VI) Uptake by Functional Magnetic Carbon Nanotubes with Phosphate Group

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