To explore the kinetic adsorption under continuous and nonequilibrium states, an integration of continuous measurement and adsorption platform kinetics method was proposed, which was initially called the ICM-AP kineti...To explore the kinetic adsorption under continuous and nonequilibrium states, an integration of continuous measurement and adsorption platform kinetics method was proposed, which was initially called the ICM-AP kinetics method, and a corresponding kinetic adsorption experimental method was developed. Adsorption experiments of europium(Eu) on Ca-bentonite,Na-bentonite, and the D231 cation exchange resin were performed using the ICM-AP kinetics method and continuous measurements. Because the kinetic experimental results observed in this study were different from those of traditional batch adsorption data, pseudo-first-order or pseudo-second-order kinetic models were unsuitable for fitting the experimental data.Hence, a liquid membrane diffusion(LMD) model was developed based on the assumption of simultaneous adsorption/desorption to discuss the mechanism of kinetic adsorption. The kinetic adsorption mechanism was also studied by using XPS.The results indicated that the proposed adsorption model can fit the experimental data more suitably, and the adsorption/desorption behaviors of Eu on bentonite and the D231 resin were simultaneously observed, suggesting that the adsorption kinetics of Eu(Ⅲ) was mainly dominated by hydrated Eu(Ⅲ) ions on the liquid membrane.展开更多
Objective:To investigate the effects of minimally invasive craniotomy combined with edaravone on cerebral oxygen metabolism, cerebrovascular function and oxidative stress in patients with acute cerebral hemorrhage.Met...Objective:To investigate the effects of minimally invasive craniotomy combined with edaravone on cerebral oxygen metabolism, cerebrovascular function and oxidative stress in patients with acute cerebral hemorrhage.Methods:A total of 100 patients with acute cerebral hemorrhage treated in our hospital from March 2015 to February 2017 were randomly divided into control group and observation group. 50 patients in the control group were treated with minimally invasive craniotomy. On the basis of control group, patients in the observation group were treated with edaravone. Cerebral oxygen metabolism, cerebrovascular function and oxidative stress were measured later in both groups.Results:After treatment, the levels of SOD in both groups increased significantly and MDA levels decreased significantly, and SOD level in the observation group was (97.34±1.95) U/mL, which was significantly higher than the control group, MDA level was (2.77±0.11) mol/L and significantly lower than that of the control group after treatment;After treatment, the levels of ET in both groups were significantly lower than those before treatment, and the levels of CGRP were significantly higher than those before treatment. ET level in observation group was (3.24±0.22) μg/L after treatment, which was significantly lower than that in control group (59.67±0.79) pg/mL, which was significantly higher than the control group;After treatment, the levels of SjvO2, CjvO2 and PbtO2 in both groups were significantly increased compared with before treatment, the levels of Da-jvO2 and CEO2 were significantly lower than the level of before treatment, and the levels of SjvO2, The levels of CjvO2 and PbtO2 were (62.93±1.63)%, (99.31±0.94) mL/L and (28.56±1.55) mmHg, which were significantly higher than the control group. Da-jvO2 and CEO2 levels were (51.31±1.13) mL/L and (30.52±0.43)%, which were significantly lower than the control group.Conclusion: Edaravone combined with minimally invasive craniotomy can effectively reduce the level of oxidative stress, improve endothelial function and cerebral oxygen metabolism, and has reliable curative effect. It is worth further clinical application.展开更多
Li-Mg-N-B-H/ZrCoH_(3) composites were successfully synthesized by ball milling of the reactants under argon and hydrogen atmosphere,respectively.The composite synthesized by reactive ball milling(RBM)under hydrogen ha...Li-Mg-N-B-H/ZrCoH_(3) composites were successfully synthesized by ball milling of the reactants under argon and hydrogen atmosphere,respectively.The composite synthesized by reactive ball milling(RBM)under hydrogen has the best hydrogen storage properties.It can desorb 3.71 wt%hydrogen in 60 min at 150℃under pressure of 0.1 MPa,and the dehydrogenation capacity reaches 4.59 wt%in 8 h.For the re-hydrogenation,5.27 wt%hydrogen was absorbed in only 10 min at 150℃under H_(2) pressure of 8 MPa.The phases of the as-milled and subsequently dehydrogenated and re-hydrogenated samples were determined by X-ray diffraction(XRD).The microstructures and elemental distributions were characterized by scanning electron microscope(SEM)and energy-dispersive spectrometer(EDS)measurements.It is shown that Mg is in situ hydrogenated and introduced homogeneous distribution of ZrCoH_(3) particles during the RBM process under hydrogen atmosphere.The activation energies for the composites were calculated by Kissinger method through differential scanning calorimetric(DSC)measurements for the dehydrogenation process with different heating rates.It is determined that the activation energy for the Li-Mg-N-B-H/ZrCoH_(3) composite synthesized by RBM under hydrogen is 79.9 kJ·mol^(-1),which is14 kJ·mol^(-1) lower than that for the sample without ZrCoH_(3) addition.The N-H bond energies were analyzed by infrared(IR)absorption spectrum,and the reasons for weakening of the N-H bond were further discussed.展开更多
基金This work was supported by the Natural Science Foundation of the Jiangxi Province,China(No.20202BABL203004)Opening Project of the State Key Laboratory of Nuclear Resources and Environment(East China University of Technology)(No.2022NRE23)Opening Project of the Jiangxi Province Key Laboratory of Polymer Micro/Nano Manufacturing and Devices(No.PMND202101).
文摘To explore the kinetic adsorption under continuous and nonequilibrium states, an integration of continuous measurement and adsorption platform kinetics method was proposed, which was initially called the ICM-AP kinetics method, and a corresponding kinetic adsorption experimental method was developed. Adsorption experiments of europium(Eu) on Ca-bentonite,Na-bentonite, and the D231 cation exchange resin were performed using the ICM-AP kinetics method and continuous measurements. Because the kinetic experimental results observed in this study were different from those of traditional batch adsorption data, pseudo-first-order or pseudo-second-order kinetic models were unsuitable for fitting the experimental data.Hence, a liquid membrane diffusion(LMD) model was developed based on the assumption of simultaneous adsorption/desorption to discuss the mechanism of kinetic adsorption. The kinetic adsorption mechanism was also studied by using XPS.The results indicated that the proposed adsorption model can fit the experimental data more suitably, and the adsorption/desorption behaviors of Eu on bentonite and the D231 resin were simultaneously observed, suggesting that the adsorption kinetics of Eu(Ⅲ) was mainly dominated by hydrated Eu(Ⅲ) ions on the liquid membrane.
基金This study was supported by National Natural Science Foundation(81371345).
文摘Objective:To investigate the effects of minimally invasive craniotomy combined with edaravone on cerebral oxygen metabolism, cerebrovascular function and oxidative stress in patients with acute cerebral hemorrhage.Methods:A total of 100 patients with acute cerebral hemorrhage treated in our hospital from March 2015 to February 2017 were randomly divided into control group and observation group. 50 patients in the control group were treated with minimally invasive craniotomy. On the basis of control group, patients in the observation group were treated with edaravone. Cerebral oxygen metabolism, cerebrovascular function and oxidative stress were measured later in both groups.Results:After treatment, the levels of SOD in both groups increased significantly and MDA levels decreased significantly, and SOD level in the observation group was (97.34±1.95) U/mL, which was significantly higher than the control group, MDA level was (2.77±0.11) mol/L and significantly lower than that of the control group after treatment;After treatment, the levels of ET in both groups were significantly lower than those before treatment, and the levels of CGRP were significantly higher than those before treatment. ET level in observation group was (3.24±0.22) μg/L after treatment, which was significantly lower than that in control group (59.67±0.79) pg/mL, which was significantly higher than the control group;After treatment, the levels of SjvO2, CjvO2 and PbtO2 in both groups were significantly increased compared with before treatment, the levels of Da-jvO2 and CEO2 were significantly lower than the level of before treatment, and the levels of SjvO2, The levels of CjvO2 and PbtO2 were (62.93±1.63)%, (99.31±0.94) mL/L and (28.56±1.55) mmHg, which were significantly higher than the control group. Da-jvO2 and CEO2 levels were (51.31±1.13) mL/L and (30.52±0.43)%, which were significantly lower than the control group.Conclusion: Edaravone combined with minimally invasive craniotomy can effectively reduce the level of oxidative stress, improve endothelial function and cerebral oxygen metabolism, and has reliable curative effect. It is worth further clinical application.
基金financially supported by Beijing Science and Technology Program(No.D141100002014002)。
文摘Li-Mg-N-B-H/ZrCoH_(3) composites were successfully synthesized by ball milling of the reactants under argon and hydrogen atmosphere,respectively.The composite synthesized by reactive ball milling(RBM)under hydrogen has the best hydrogen storage properties.It can desorb 3.71 wt%hydrogen in 60 min at 150℃under pressure of 0.1 MPa,and the dehydrogenation capacity reaches 4.59 wt%in 8 h.For the re-hydrogenation,5.27 wt%hydrogen was absorbed in only 10 min at 150℃under H_(2) pressure of 8 MPa.The phases of the as-milled and subsequently dehydrogenated and re-hydrogenated samples were determined by X-ray diffraction(XRD).The microstructures and elemental distributions were characterized by scanning electron microscope(SEM)and energy-dispersive spectrometer(EDS)measurements.It is shown that Mg is in situ hydrogenated and introduced homogeneous distribution of ZrCoH_(3) particles during the RBM process under hydrogen atmosphere.The activation energies for the composites were calculated by Kissinger method through differential scanning calorimetric(DSC)measurements for the dehydrogenation process with different heating rates.It is determined that the activation energy for the Li-Mg-N-B-H/ZrCoH_(3) composite synthesized by RBM under hydrogen is 79.9 kJ·mol^(-1),which is14 kJ·mol^(-1) lower than that for the sample without ZrCoH_(3) addition.The N-H bond energies were analyzed by infrared(IR)absorption spectrum,and the reasons for weakening of the N-H bond were further discussed.