Localized high-concentration electrolytes(LHCE) have shown good compatibility with high-voltage lithium(Li)-metal batteries, but their practicality is yet to be proved in terms of cost and safety. Here we develop a hy...Localized high-concentration electrolytes(LHCE) have shown good compatibility with high-voltage lithium(Li)-metal batteries, but their practicality is yet to be proved in terms of cost and safety. Here we develop a hybrid-LHCE with favorable integrated properties by combining the merits of two representative diluents, fluorobenzene(FB) and 1,1,2,2-tetrafluoroethyl-2,2,2-trifluoroethyl ether(TFE). Specifically,the extremely cheap and lightweight FB significantly reduces the cost and density of electrolyte, while the fire-retardant TFE circumvents the flammable nature of FB and thus greatly improves the safety of electrolyte. Moreover, the FB–TFE mixture enhances the thermodynamic stability of hybrid-LHCE and renders a controllable defluorination of FB, contributing to the formation of a thin and durable inorganic-rich solid electrolyte interphase(SEI) with rapid ion-transport kinetics. Benefiting from the designed hybridLHCE, a Li|NCM523 battery demonstrates excellent cycling performance(215 cycles, 91% capacity retention) under challenging conditions of thin Li-anode(30 μm) and high cathode loading(3.5 m Ah/cm^(2)).展开更多
The effects of environmental Na+/K+ ratio on the gill ion-transport enzyme activity,plasma osmolality and growth of Cynoglossus semilaevis juveniles were investigated. The results showed that,plasma osmolality was sim...The effects of environmental Na+/K+ ratio on the gill ion-transport enzyme activity,plasma osmolality and growth of Cynoglossus semilaevis juveniles were investigated. The results showed that,plasma osmolality was similar among flounder adapted to different Na+/K+ ratios of saline groundwaters (P>0.05),while the growth,gill Na+,K+-ATPase and HCO3--ATPase activities were affected by Na+/K+ ratio significantly (P<0.05). The gill Na+,K+-ATPase activity reached its maximum on day 3,then decreased gradually from day 3 to day 9 and remained constant from day 9 to day 15. The peak values of gill Na+,K+-ATPase activity were detected on day 3 for all Na+/K+ ratios of saline groundwaters,then the enzyme activities descended,and on day 9 the enzyme activi-ties achieved steady state,and the gill HCO3--ATPase activity increased rapidly and achieved steady state after one day. During steady state,the gill Na+,K+-ATPase and HCO3--ATPase activity of Na+/K+ ratios 20 and 40 treatments were significantly higher than those in the control group (Na+/K+ ratio 27.5),while there were no significant differences between the Na+/K+ ratio 30 treatment and the control group; the gill Na+,K+-ATPase activity of Na+/K+ ratio 20 and 40 treatments were significantly higher than that for ratio 30 treatment,but there were no significant differences of gill HCO3--ATPase activity among these treatments. At the end of the 15-day experiment,the weight gain (%) and specific growth rate (SGR) of flounders maintained in seawater were significantly higher than those in groundwaters; significant differences also occurred among the treatments; Na+/K+ ratio 30 treatment had the highest values (33.7% and 1.94 respectively),which were significantly higher than those under Na+/K+ ratios 20 and 40 treatments. There-fore,for the saline groundwater used in this experiment,it is suggested that the Na+/K+ ratio be adjusted to approximately 30,i.e.,as close to that of natural seawater as possible in the culture of flounder.展开更多
The ion-transport enzyme activities were studied in the nauplii 1-2, zoea 1-3, mysis 1-3, and postlarva 1-7 of the shrimps Marsupenaeus japonicus and Fenneropenaeus chinensis. The results showed that total ATPase, Na...The ion-transport enzyme activities were studied in the nauplii 1-2, zoea 1-3, mysis 1-3, and postlarva 1-7 of the shrimps Marsupenaeus japonicus and Fenneropenaeus chinensis. The results showed that total ATPase, Na+-K+-ATPase, and V-ATPase (V-type H+-ATPase) activities increased during the early development for both the species, from zero in nauplii to stable levels after zoea stage. The enzyme activities of the latter species were significantly higher than those of the former species after zoea stage (F〉F0.05). The contributions of Na+-K+-ATPase, V-ATPase and HCO3--ATPase to the total ATPase activity of the two species varied in different developmental stages and accounted for 40%-70%, 22%-46% and 2%-13% in M. japonicus from zoea to postlarva stage, whilst the shares of them were 42%-69%, 28%-44% and 2.5%-22%, respectively in Echinensis. These findings suggest the possible culture of the two species with varying water quality, especially the salinity and pH.展开更多
The transverse emittance of an ion beam describes its transverse size as the particles are transported from a source to a target.It allows for predicting beam losses in limiting apertures and the beam focus size at th...The transverse emittance of an ion beam describes its transverse size as the particles are transported from a source to a target.It allows for predicting beam losses in limiting apertures and the beam focus size at the target.Various definitions and issues are discussed.The most common and emerging measuring techniques are presented,including their advantages.Several methods of emittance data analysis,their accuracy and trustworthiness,are discussed.展开更多
【目的】电控离子选择渗透(electrochemically switched ion permselectivity, ESIP)是一种新型的离子选择性膜分离技术,已成功应用于低浓度目标离子的高效、连续、选择性分离。然而,离子在膜内传质不符合Nernst-Planck理论,建立ESIP离...【目的】电控离子选择渗透(electrochemically switched ion permselectivity, ESIP)是一种新型的离子选择性膜分离技术,已成功应用于低浓度目标离子的高效、连续、选择性分离。然而,离子在膜内传质不符合Nernst-Planck理论,建立ESIP离子传质模型有助于人们理解ESIP分离过程。【方法】在ESIP膜分离系统中,为研究离子在膜上双脉冲电势与极室槽电压耦合动态场中的传质行为,提出了修正的Nernst-Planck模型。根据唐南(Donnan)平衡以及电中性假设等,建立了ESIP膜分离过程的离子传递稳态模型。通过数值模拟考察了电流密度、膜厚、膜内离子活性位点浓度对膜分离系统中离子浓度和电阻分布的影响。【结果】在原料侧扩散层和膜相内,膜厚和离子活性位点浓度对离子浓度分布影响较大,降低膜厚、提高离子活性位点浓度是提高离子传质的主要方式。在高电流密度、低膜厚和高离子活性位点浓度下,原料侧扩散层电阻在整体电阻中占主导作用,通过增加流体流速或减小腔室厚度以提高离子传质速率。在低电流密度、较高膜厚下,Donnan层电阻占主导作用,通过增加膜的离子活性位点来提高离子传质速率。【结论】在高电流密度、低膜厚和高离子活性位点浓度下,减弱扩散层电阻(增加流体流速、减少腔室厚度)是实现ESIP性能优化的主要途径。展开更多
Radial profiles of the ion temperature,Ti,have been measured by a double-sided retarding field analyzer(RFA) in the scrape-off layer(SOL) of the J-TEXT tokamak(R = 105 cm,r = 25-29 cm,Bt = 1.8-2.0 T,Ip = 120-180 ...Radial profiles of the ion temperature,Ti,have been measured by a double-sided retarding field analyzer(RFA) in the scrape-off layer(SOL) of the J-TEXT tokamak(R = 105 cm,r = 25-29 cm,Bt = 1.8-2.0 T,Ip = 120-180 kA,ne =(2-2.5) × 10^19 m^-3).Strongly declining Ti profiles in the SOL have been found.The different e-folding lengths,At,of the Ti profiles in two experimental configurations with different magnetic connection lengths,Lc,reveal that a longer Lc results in weaker parallel energy transport and longer At.In similarity with the particle transport across the SOL,At is approximately proportional to the square root of Lc.Additionally,the poloidal asymmetry has been identified with enhanced ion energy transport across the SOL on the low-field side.展开更多
Ionophore can prominently improve the ion permeability of cell membrane and disrupt cellular ion homeostasis.Most studies regarding ionophore facilitating ion transmembrane transport focus on artificial liquid-liquid ...Ionophore can prominently improve the ion permeability of cell membrane and disrupt cellular ion homeostasis.Most studies regarding ionophore facilitating ion transmembrane transport focus on artificial liquid-liquid interfaces,which have large difference from the actual environment of cell membrane.Here,we construct a supported lipid bilayeron a gold nanoparticles film modified ZnSe prism as an appropriate model of cell membrane to investigate the dynamic of the ion transport facilitated by ionophore using surface enhanced infrared absorption spectroscopy(SEIRAS).We find that the ion transmembrane transport consists of two steps:The ion transmembrane transport starts with the association/disassociation between ion and ionophore at the edge of lipid bilayer;The second step is the transfer of ion-ionophore complex across lipid bilayer.Our results show that the complex transfer across the lipid bilayer is the rate determining step.展开更多
Osmoregulation involves many aspects of physiological function in crustacean. Crustacean species exhibit almost all possible patterns of osmotic regulation and they are widely distributed in most of known biotopes. Wi...Osmoregulation involves many aspects of physiological function in crustacean. Crustacean species exhibit almost all possible patterns of osmotic regulation and they are widely distributed in most of known biotopes. With the changes of liquid environment, the structure and function of the osmoregulation organs(such as gills, antennary glands),haemolymph osmotic pressure and ionic transport will turn to maintain the well-balanced metabolism, which are under the neuroendocrine regulation. The current research status of physiological mechanism of crustacean osmoregulation was reviewed in the following aspects: 1)Structure and function of gills and antennal glands(maxillary glands). The gills are very important organs and play a prominenet role in osmoregulation; 2)Regulation of ion transport in branchial epithelium. Ion transport enzymes (Na+-K+-ATPase, V-ATPase,HCO3--ATPase and carbonicanhydrase) stimulated by bioamines and cAMP may participate in the ion transport of branchial epithelium in crustacean; 3)Haemolymph composition and osmoregulation. Haemolymph concentration of ion and free amino acid accompanied by metabolites of blood can contribute to the most of haemolymph osmotic pressure; 4)Neuroendocrine control. Many neuropeptides may regulate the osmotic pressure of haemolymph and proteinsases activity of epithelial gill cells. Bioamines, cAMP and CaM have been proved to stimulate the uptake of Na+ and transport of Cl-.展开更多
K+ uptake in the high-affinity range of concentrations and its components have been widely studied. In Arabidposis thaliana, the AtHAK5 transporter and the AtAKT1 channel have been shown to be the main transport prot...K+ uptake in the high-affinity range of concentrations and its components have been widely studied. In Arabidposis thaliana, the AtHAK5 transporter and the AtAKT1 channel have been shown to be the main transport proteins involved in this process. Here, we study the role of these two systems under two important stress conditions: low K+ supply or the presence of salinity. T-DNA insertion lines disrupting AtHAK5 and A tAKT1 are employed for long-term experi- ments that allow physiological characterization of the mutant lines. We found that AtHAK5 is required for K+ absorption necessary to sustain plant growth at low K+ in the absence as well as in the presence of salinity. Salinity greatly reduced AtHAK5 transcript levels and promoted AtAKTl-mediated K+ efflux, resulting in an important impairment of K+ nutrition. Although having a limited capacity, AtHAK5 plays a major role for K+ acquisition from low K+ concentrations in the presence of salinity.展开更多
基金supported by the National Natural Science Foundation of China (No. 21808125)China Postdoctoral Science Foundation (No. 2020M672805)supported by Tsinghua National Laboratory for Information Science and Technology。
文摘Localized high-concentration electrolytes(LHCE) have shown good compatibility with high-voltage lithium(Li)-metal batteries, but their practicality is yet to be proved in terms of cost and safety. Here we develop a hybrid-LHCE with favorable integrated properties by combining the merits of two representative diluents, fluorobenzene(FB) and 1,1,2,2-tetrafluoroethyl-2,2,2-trifluoroethyl ether(TFE). Specifically,the extremely cheap and lightweight FB significantly reduces the cost and density of electrolyte, while the fire-retardant TFE circumvents the flammable nature of FB and thus greatly improves the safety of electrolyte. Moreover, the FB–TFE mixture enhances the thermodynamic stability of hybrid-LHCE and renders a controllable defluorination of FB, contributing to the formation of a thin and durable inorganic-rich solid electrolyte interphase(SEI) with rapid ion-transport kinetics. Benefiting from the designed hybridLHCE, a Li|NCM523 battery demonstrates excellent cycling performance(215 cycles, 91% capacity retention) under challenging conditions of thin Li-anode(30 μm) and high cathode loading(3.5 m Ah/cm^(2)).
基金the Agricultural Science and Technology Achievement Transfer Project of Tianjin City of China (Transfer of the Large-scale health culture technology of fish and shrimp)the Science and Technology Program of Shengli Oil Field Administration Bureau (The exploring study on the culture technology of fish and shrimp using saline groundwaters)
文摘The effects of environmental Na+/K+ ratio on the gill ion-transport enzyme activity,plasma osmolality and growth of Cynoglossus semilaevis juveniles were investigated. The results showed that,plasma osmolality was similar among flounder adapted to different Na+/K+ ratios of saline groundwaters (P>0.05),while the growth,gill Na+,K+-ATPase and HCO3--ATPase activities were affected by Na+/K+ ratio significantly (P<0.05). The gill Na+,K+-ATPase activity reached its maximum on day 3,then decreased gradually from day 3 to day 9 and remained constant from day 9 to day 15. The peak values of gill Na+,K+-ATPase activity were detected on day 3 for all Na+/K+ ratios of saline groundwaters,then the enzyme activities descended,and on day 9 the enzyme activi-ties achieved steady state,and the gill HCO3--ATPase activity increased rapidly and achieved steady state after one day. During steady state,the gill Na+,K+-ATPase and HCO3--ATPase activity of Na+/K+ ratios 20 and 40 treatments were significantly higher than those in the control group (Na+/K+ ratio 27.5),while there were no significant differences between the Na+/K+ ratio 30 treatment and the control group; the gill Na+,K+-ATPase activity of Na+/K+ ratio 20 and 40 treatments were significantly higher than that for ratio 30 treatment,but there were no significant differences of gill HCO3--ATPase activity among these treatments. At the end of the 15-day experiment,the weight gain (%) and specific growth rate (SGR) of flounders maintained in seawater were significantly higher than those in groundwaters; significant differences also occurred among the treatments; Na+/K+ ratio 30 treatment had the highest values (33.7% and 1.94 respectively),which were significantly higher than those under Na+/K+ ratios 20 and 40 treatments. There-fore,for the saline groundwater used in this experiment,it is suggested that the Na+/K+ ratio be adjusted to approximately 30,i.e.,as close to that of natural seawater as possible in the culture of flounder.
基金funded by the Program for New Century Excellent Talents in University (NCET-06-0597)supported by the Scientific Research Foundation for Outstanding Young Scientist of Shandong Province (No.2006BS07005)
文摘The ion-transport enzyme activities were studied in the nauplii 1-2, zoea 1-3, mysis 1-3, and postlarva 1-7 of the shrimps Marsupenaeus japonicus and Fenneropenaeus chinensis. The results showed that total ATPase, Na+-K+-ATPase, and V-ATPase (V-type H+-ATPase) activities increased during the early development for both the species, from zero in nauplii to stable levels after zoea stage. The enzyme activities of the latter species were significantly higher than those of the former species after zoea stage (F〉F0.05). The contributions of Na+-K+-ATPase, V-ATPase and HCO3--ATPase to the total ATPase activity of the two species varied in different developmental stages and accounted for 40%-70%, 22%-46% and 2%-13% in M. japonicus from zoea to postlarva stage, whilst the shares of them were 42%-69%, 28%-44% and 2.5%-22%, respectively in Echinensis. These findings suggest the possible culture of the two species with varying water quality, especially the salinity and pH.
基金ORNL/SNS is managed by UT-Battelle,LLC,for the U.S.Department of Energy under contract DE-AC05-00OR22725
文摘The transverse emittance of an ion beam describes its transverse size as the particles are transported from a source to a target.It allows for predicting beam losses in limiting apertures and the beam focus size at the target.Various definitions and issues are discussed.The most common and emerging measuring techniques are presented,including their advantages.Several methods of emittance data analysis,their accuracy and trustworthiness,are discussed.
文摘【目的】电控离子选择渗透(electrochemically switched ion permselectivity, ESIP)是一种新型的离子选择性膜分离技术,已成功应用于低浓度目标离子的高效、连续、选择性分离。然而,离子在膜内传质不符合Nernst-Planck理论,建立ESIP离子传质模型有助于人们理解ESIP分离过程。【方法】在ESIP膜分离系统中,为研究离子在膜上双脉冲电势与极室槽电压耦合动态场中的传质行为,提出了修正的Nernst-Planck模型。根据唐南(Donnan)平衡以及电中性假设等,建立了ESIP膜分离过程的离子传递稳态模型。通过数值模拟考察了电流密度、膜厚、膜内离子活性位点浓度对膜分离系统中离子浓度和电阻分布的影响。【结果】在原料侧扩散层和膜相内,膜厚和离子活性位点浓度对离子浓度分布影响较大,降低膜厚、提高离子活性位点浓度是提高离子传质的主要方式。在高电流密度、低膜厚和高离子活性位点浓度下,原料侧扩散层电阻在整体电阻中占主导作用,通过增加流体流速或减小腔室厚度以提高离子传质速率。在低电流密度、较高膜厚下,Donnan层电阻占主导作用,通过增加膜的离子活性位点来提高离子传质速率。【结论】在高电流密度、低膜厚和高离子活性位点浓度下,减弱扩散层电阻(增加流体流速、减少腔室厚度)是实现ESIP性能优化的主要途径。
基金supported by National Natural Science Foundation of China(No.11305070)the Ministry of Science and Technology(No.2013GB106001)the Open Foundation of the Key Laboratory of Geospace Environment,the CSA/SAFEA International Partnership Program for Creative Research Teams
文摘Radial profiles of the ion temperature,Ti,have been measured by a double-sided retarding field analyzer(RFA) in the scrape-off layer(SOL) of the J-TEXT tokamak(R = 105 cm,r = 25-29 cm,Bt = 1.8-2.0 T,Ip = 120-180 kA,ne =(2-2.5) × 10^19 m^-3).Strongly declining Ti profiles in the SOL have been found.The different e-folding lengths,At,of the Ti profiles in two experimental configurations with different magnetic connection lengths,Lc,reveal that a longer Lc results in weaker parallel energy transport and longer At.In similarity with the particle transport across the SOL,At is approximately proportional to the square root of Lc.Additionally,the poloidal asymmetry has been identified with enhanced ion energy transport across the SOL on the low-field side.
基金supported by grants from the National Key R&D Program of China(No.2017YFA0700500)the National Natural Science Foundation of China(No.21635004)。
文摘Ionophore can prominently improve the ion permeability of cell membrane and disrupt cellular ion homeostasis.Most studies regarding ionophore facilitating ion transmembrane transport focus on artificial liquid-liquid interfaces,which have large difference from the actual environment of cell membrane.Here,we construct a supported lipid bilayeron a gold nanoparticles film modified ZnSe prism as an appropriate model of cell membrane to investigate the dynamic of the ion transport facilitated by ionophore using surface enhanced infrared absorption spectroscopy(SEIRAS).We find that the ion transmembrane transport consists of two steps:The ion transmembrane transport starts with the association/disassociation between ion and ionophore at the edge of lipid bilayer;The second step is the transfer of ion-ionophore complex across lipid bilayer.Our results show that the complex transfer across the lipid bilayer is the rate determining step.
文摘Osmoregulation involves many aspects of physiological function in crustacean. Crustacean species exhibit almost all possible patterns of osmotic regulation and they are widely distributed in most of known biotopes. With the changes of liquid environment, the structure and function of the osmoregulation organs(such as gills, antennary glands),haemolymph osmotic pressure and ionic transport will turn to maintain the well-balanced metabolism, which are under the neuroendocrine regulation. The current research status of physiological mechanism of crustacean osmoregulation was reviewed in the following aspects: 1)Structure and function of gills and antennal glands(maxillary glands). The gills are very important organs and play a prominenet role in osmoregulation; 2)Regulation of ion transport in branchial epithelium. Ion transport enzymes (Na+-K+-ATPase, V-ATPase,HCO3--ATPase and carbonicanhydrase) stimulated by bioamines and cAMP may participate in the ion transport of branchial epithelium in crustacean; 3)Haemolymph composition and osmoregulation. Haemolymph concentration of ion and free amino acid accompanied by metabolites of blood can contribute to the most of haemolymph osmotic pressure; 4)Neuroendocrine control. Many neuropeptides may regulate the osmotic pressure of haemolymph and proteinsases activity of epithelial gill cells. Bioamines, cAMP and CaM have been proved to stimulate the uptake of Na+ and transport of Cl-.
文摘K+ uptake in the high-affinity range of concentrations and its components have been widely studied. In Arabidposis thaliana, the AtHAK5 transporter and the AtAKT1 channel have been shown to be the main transport proteins involved in this process. Here, we study the role of these two systems under two important stress conditions: low K+ supply or the presence of salinity. T-DNA insertion lines disrupting AtHAK5 and A tAKT1 are employed for long-term experi- ments that allow physiological characterization of the mutant lines. We found that AtHAK5 is required for K+ absorption necessary to sustain plant growth at low K+ in the absence as well as in the presence of salinity. Salinity greatly reduced AtHAK5 transcript levels and promoted AtAKTl-mediated K+ efflux, resulting in an important impairment of K+ nutrition. Although having a limited capacity, AtHAK5 plays a major role for K+ acquisition from low K+ concentrations in the presence of salinity.
