Equilibria and Dynamics of Sodium Citrate Aqueous Solutions: The Hydration of Citrate and Formation of the Na<sub>3</sub>Cit<sup>0</sup> Ion Aggregate

Kutus, Bence; Dudás, Csilla; Friesen, Sergej; Peintler, Gábor; Pálinkó, István; Sipos, Pál; Buchner, Richard

doi:10.1021/acs.jpcb.0c06377

Cited by 6 publications

(2 citation statements)

References 61 publications

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“…Moreover, the desulfurization time increased by 15 min. The causes of this phenomenon are various [33]. In addition to the hydrolysis of HA-Na to generate hydroxide ions, it can also ionize the acid radical ions (carboxylate), thus consuming H + to move the dissolution balance to the right and cooperating with Ci-Na to absorb more SO 2 .…”

Section: Effect Of the Inlet So2 Concentrationmentioning

confidence: 99%

Enhanced SO2 Absorption Capacity of Sodium Citrate Using Sodium Humate

et al. 2021

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A novel method of improving the SO2 absorption performance of sodium citrate (Ci-Na) using sodium humate (HA–Na) as an additive was put forward. The influence of different Ci-Na concentration, inlet SO2 concentration and gas flow rate on desulfurization performance were studied. The synergistic mechanism of SO2 absorption by HA–Na and Ci-Na was also analyzed. The consequence shows that the efficiency of SO2 absorption by Ci-Na is above 90% and the desulfurization time added with the Ci-Na concentration rising from 0.01 to 0.1 mol/L. Both the desulfurization efficiency and time may increase with the adding of HA–Na quality in Ci-Na solution. Due to adding HA–Na, the desulfurization efficiency of Ci-Na increased from 90% to 99% and the desulfurization time increased from 40 to 55 min. Under the optimum conditions, the desulfurization time of Ci-Na can exceed 70 min because of adding HA–Na, which is nearly doubled. The growth of inlet SO2 concentration has little effect on the desulfurization efficiency. The SO2 adsorption efficiency decreases with the increase of inlet flow gas. The presence of O2 improves the SO2 removal efficiency and prolongs the desulfurization time. Therefore, HA–Na plays a key role during SO2 absorption and can dramatically enhance the SO2 adsorption performance of Ci-Na solution.

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Section: Effect Of the Inlet So2 Concentrationmentioning

confidence: 99%

Enhanced SO2 Absorption Capacity of Sodium Citrate Using Sodium Humate

et al. 2021

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“…NaCit has a regulating effect on the solvation structure of Zn 2+ . Cit – preferentially adsorbs on the zinc surface, occupying the active site of water-induced corrosion and hydrogen evolution and rearranging the electrode–electrolyte interphase . Cit – can interact with Zn 2+ to induce zinc deposition along the Zn(002) plane, effectively regulating Zn ion migration behavior and thereby promoting uniform deposition and inhibiting side reactions.…”

mentioning

confidence: 99%

Long-Life Zn Anode Enabled with Complexing Ability of a Benign Electrolyte Additive

Yu,

Niu,

Tian

et al. 2024

J. Phys. Chem. Lett.

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The development of aqueous zinc ion batteries (AZIBs) is hindered by several problems, including Zn dendrite/corrosion, side reactions, and hydrogen evolution reaction (HER). Herein, trisodium citrate (NaCit) additive is introduced into the ZnSO 4 electrolyte to guide the preferred Zn(002) crystal plane growth, while the Cit − is preferentially adsorbed on the active sites to suppress the HER and Zn corrosion, thus achieving uniform Zn deposition without dendrites. The stable cycle life can reach 2000 h at 0.25 mA cm −2 /0.05 mAh cm −2 . The density functional theory simulations further indicate that the parallely placed Cit − has the lowest adsorption energy (−6.617 eV); it can form a weak interaction with Zn metal to promote the growth of (002) crystal planes. Furthermore, the assembled Zn//polyaniline full cell and pouch cell both exhibit good rate performance and long cycling stability. The complexation and dissolubilization effects of the NaCit additive provide a means for designing high-performance AZIBs.

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Citrate in calcium transport and biomineralisation

Liu

Skibsted

2023

International Dairy Journal

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Equilibria and Dynamics of Sodium Citrate Aqueous Solutions: The Hydration of Citrate and Formation of the Na₃Cit⁰ Ion Aggregate

Cited by 6 publications

References 61 publications

Enhanced SO2 Absorption Capacity of Sodium Citrate Using Sodium Humate

Enhanced SO2 Absorption Capacity of Sodium Citrate Using Sodium Humate

Long-Life Zn Anode Enabled with Complexing Ability of a Benign Electrolyte Additive

Citrate in calcium transport and biomineralisation

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Equilibria and Dynamics of Sodium Citrate Aqueous Solutions: The Hydration of Citrate and Formation of the Na3Cit0 Ion Aggregate

Cited by 6 publications

References 61 publications

Enhanced SO2 Absorption Capacity of Sodium Citrate Using Sodium Humate

Enhanced SO2 Absorption Capacity of Sodium Citrate Using Sodium Humate

Long-Life Zn Anode Enabled with Complexing Ability of a Benign Electrolyte Additive

Citrate in calcium transport and biomineralisation

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Product

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Equilibria and Dynamics of Sodium Citrate Aqueous Solutions: The Hydration of Citrate and Formation of the Na₃Cit⁰ Ion Aggregate