Degradation analysis and doping modification optimization for high-voltage P-type layered cathode in sodium-ion batteries

Advancing high-voltage stability of layered sodium-ion oxides represents a pivotal avenue for their progress in energy storage applications.Despite this,a comprehensive understanding of the mechanisms underpinning their structural deterioration at elevated voltages remains insufficiently explored.In this study,we unveil a layer delamination phenomenon of Na_(0.67)Ni_(0.3)Mn_(0.7)O_(2)(NNM)within the 2.0-4.3 V voltage,attributed to considerable volumetric fluctuations along the c-axis and lattice oxygen reactions induced by the simultaneous Ni^(3+)/Ni^(4+)and anion redox reactions.By introducing Mg doping to diminished Ni-O antibonding,the anion oxidation-reduction reactions are effectively mitigated,and the structural integrity of the P2 phase remains firmly intact,safeguarding active sites and precluding the formation of novel interfaces.The Na_(0.67)Mg_(0.05)Ni_(0.25)Mn_(0.7)O_(2)(NMNM-5)exhibits a specific capacity of100.7 mA h g^(-1),signifying an 83%improvement compared to the NNM material within the voltage of2.0-4.3 V.This investigation underscores the intricate interplay between high-voltage stability and structural degradation mechanisms in layered sodium-ion oxides.

Mechanical analysis of C/C composite grids in ion optical system

The ion thruster is an engine with high specific impulse for satellites and spacecrafts,which uses electric energy to boost the spacecraft.The ion optical system,also known as gate assemblies which consist of acceleration and screen grids,is the key component of the ion thruster.In this paper,the static mechanical properties of the C/C composite grids are evaluated based on the structural design.Representative volume element (RVE) is adopted to simplify the braded composite structure as a continuum material.The dynamical behavior of the 100 mm ion thruster optics in the launch environment (1000g shock-load) is numerically modeled and simulated with the half-sine pulse method.The impact response of the C/C and molybdenum gate assemblies on the stress distribution and deformation is investigated.The simulated results indicate that the magnitudes of the normal displacement of the composite grids subject to the uniformly distributed load are on the same level as molybdenum grids although the normal stiffness of the composite grids is much smaller.When subject to impact loading,the stress distribution in the C/C composite grids is similar to molybdenum grids while the stress magnitude is much smaller.This finding shows that the C/C gate assemblies outperform molybdenum grids and meet the requirement of long lifetime service in space travel.

In-situ structural evolution analysis of Zr-doped Na_(3)V_(2)(PO_(4))_(2)F_(3) coated by N-doped carbon layer as high-performance cathode for sodium-ion batteries

With great superiorities in energy density,rate capability and structural stability,Na_(3)V_(2)(PO_(4))_(2) F_(3)(NVPF)has attracted much attentions as cathode of sodium ion battery(SIB),but it also faces challenges on its poor intrinsic electronic conductivity and the controversial de/sodiation mechanism.Herein,a series of Zr-doped NVPF coated by N-doped carbon layer(~5 nm in thickness,homogenously)materials are fabricated by a sol-gel method,and the optimized heteroatom-doping amounts of Zr and N doping improve intrinsic properties on enlarging lattice distance and enhancing electronic conductivity,respectively.Specifically,among all samples of Na_(3) V_(2-x)Zr_(x)(PO_(4))_(2) F_(3)/NC(NVPF-Zr-x/NC,x=0,0.01,0.02,0.05,and 0.1),the optimized electrode of NVPF-Zr-0.02/NC delivers high reversible capacities(119.2 mAh g^(-1) at0.5 C),superior rate capability(98.1 mA h g^(-1) at 20 C)and excellent cycling performance.The structural evolution of NVPF-Zr-0.02/NC electrode,in-situ monitored by X-ray diffractometer,follows a step-wise Na-extraction/intercalation mechanism with reversible multi-phase changes,not just a solid-solutionreaction one.Full cells of NVPF-Zr-0.02/NC//hard carbon demonstrate high capacity(99.8 mA h g^(-1) at 0.5 C),high out-put voltage(3.5 V)and good cycling stability.This work is favorable to accelerate the development of high-performance cathode materials and explore possible redox reaction mechanisms of SIBs.

Nanofiltration Technology for Toxic or Harmful Ions Removal from Groundwater: Characteristics and Economic Analysis

Nanofiltration (NF) membrane can efficiently remove the ions from groundwater, especially for high valence ions. Results show that the removal rate of fluoride was approximately 67% by the NF system, while for arsenic the removal rate was more than 93%. NF presented the well selective removal for fluoride. The quality of product water meets the national drinking water standards. Therefore, the application of nanofiltration technology can significantly improve the drinking water environment of rural areas, avoiding the secondary pollution caused by other chemical treatment processes. The water product cost of NF technology is about RMB 0.026 yuan per liter, application of the process of 2:1 NF membranes arrangement for toxic or harmful ions removal from groundwater, including investment cost and operating cost. Therefore, NF technology for harmful ions removal is more economical than the price of the market bottled water and suitable for application in rural areas of China.

Identification of key pathways and gene expression in the activation of mast cells via calcium flux using bioinformatics analysis

Mast cells are the main effector cells in IgE-associated allergic disorders,and we have reported that mucosal mast cells(MMCs)play a more important role in the development of food allergy(FA).IgE with antigen or calcium ionophore stimulation can lead to the activation of MMCs via a calcium-dependent pathway.The purpose of the present study was to identify gene signatures with IgE/antigen(dinitrophenyl-bovine serum albumin,DNP-BSA)or calcium ionophore(A23187)on the activation of MMCs.Differentially expressed genes between the two types of samples were identified with microarray analysis.Gene ontology functional and pathway enrichment analyses of differentially expressed genes were performed using the database for annotation,visualization,and integrated discovery software.The results showed that IgE/antigen and A23187 could induce degranulation,increase vacuoles,and elevate the cytosolic calcium concentration in MMCs.Furthermore,GeneChip analysis showed that the same 134 mRNAs were altered with IgE/DNP-BSA and A23187,suggesting that DNP-BSA/IgE and A23187 affect the same signal pathway partly in degranulation.KEGG analysis showed that the data were enriched in NF-κB,TNF,MAPK,transcription factor activity,DNA binding,and nucleic acid binding,suggesting that activation of MMCs is a complex process.The results provide new insights on MMCs activation.

Trace-Level Analysis of Hexavalent Chromium in Lake Sediment Samples Using Ion Chromatography Tandem Mass Spectrometry

The analysis of hexavalent chromium, Cr(VI), in soil and sediment samples has been predominantly carried out in materials containing elevated levels. Reliable analysis of trace-level of Cr(VI) in sediment samples remains challenging. Cr(VI) analyses with multipoint calibration and speciated isotope dilution (SID) adapted from U.S. EPA method 6800 were used to measure lower-level Cr(VI) on an ion chromatograph coupled with a tandem mass spectrometer (IC-MS/MS). Lake sediment samples were collected from various locations in Northern Ontario and Cr(VI) was extracted using both alkaline digestion and ethylene diaminetetraacetic acid (EDTA) extraction. Certified reference materials were extracted and analyzed by IC-MS/MS and UV-VIS detection. The SID-MS approach allowed for the quantification of Cr(VI) in samples with concentration levels below 0.5 μg.g-1 wet weight.

Mechanical Analysis and Measurements of a Multicomponent NbTi/Cu Superconducting Magnets Structure for the Fully Superconducting Electron Cyclotron Resonance Ion Source

A fully superconducting electron cyclotron resonance （ECR） ion source （SECRAL ID is currently being built in the Institute of Modern Physics, Chinese Academy of Sciences. Its key components are three superconducting solenoids （Nb-Ti/Cu） and six superconducting sextupoles （Nb-Ti/Cu）. Different from the conventional supercon- ducting ECR magnetic structure, the SEC17AL Ⅱ includes three superconducting solenoid coils＇ that are located inside the superconducting sextupoles. The SECRAL Ⅱ can significantly reduce the interaction forces between the sextupole and the solenoids, and the magnets can also be more compact in size. For this multi-component SECRAL Ⅱ generating its self field of -8 T and being often exposed to the high self field, the mechanical analysis has become the main issue to keep their stress at 〈200 MPa on coils. The analytical and experimental results in mechanics are presented in the SECRAL Ⅱ structure. To improve the accuracy and efficiency of analysis, according to the composite rule of micromechanics, the equivalent uniform windings are used to simulate the epoxy-impregnated Nb-Ti/Cu coils. In addition, using low temperature strain gauges and a wireless fast strain acquisition system, a fundamental experiment on the based on our analysis, the stresses and deformations optimized. strains developments of a sextupole is reported. Finally, for its assembly of each SECRAL Ⅱ coil will be further

PROGRESS IN ION BEAM ANALYSIS AT FUDAN UNIVERSITY

Progres in ion beam analysis at Fudan University in the recent years is briefly reviewed. Presented as examples of the research activities performed in this field are the following projects: (1) Nuclear potential resonance scattering of 6.25 MeV and 4.25 MeV helium ions for simultaneous compositional analysis of carbon and oxygen in a Mylar, a SnInO, and some other film samples: (2) Determination of stoichiometry of a high-temperature superconducting Y-Ba-Cu-O sample by backscattering of 8.8 MeV helium ions; (3) Backscattering and channeling analysis of multilayered structures periodically consisting of layers of pure Si and alternate layers of Ge and Si, grown on (100) Si substrates by molecular beam epitaxy: (4) Studies of surface structure of Al(100) by the use of MeV ions backscattering and channeling surface peak: and (5) MeV ion microbeam analysis and the use of PIXE method in DNA study. etc.

THE PEKING UNIVERSITY MULTI—APPLICATION ION BEAM ANALYSIS SYSTEM

A multi-application ion beam analysis system and some research projects performed at this system are described. The lifetime of the RF ion source for He^- is discussed.

RBS ANALYSIS OF DAMAGE AND ANNEALING OF ION IMPLANTED InP:Fe

Rutherford backscattering spectroscopy (RBS) with channeling technique has been used to analyze the damage and its annealing of Si+ and P+ implanted InP:Fe. 150 keV Si ions and 160 keV P ions were implanted with doses ranging from 1×1013 to 1×1015 / cm2 at room temperature, 200℃ and 77K. Thermal annealing was performed in a conventional open tube furnace under flow of pure N2 for 15 minutes. Annealing temperature was chosen from 150℃ to 800 ℃ It was found that a dose of 8×1013cm2 Si+ was sufficient to produce an amorphous layer at room temperature and its epitaxial regrowth takes place at temperature below 150 ℃. The epitaxial regrowth of amorphous layer produced by 1×1014/cm2 Si ions occurs from both substrate and surface while that produced by co-implantation of 1×1014 /cm2 Si ions with the same dose of P ions takes place from substrate only. It was also noticed that for the former sample, its amorphized layer can be nearly completely recrystallized by epitaxial growth at 650 ℃, but for the latter much residual disorder remains even after annealing at 750 ℃. As for 77K implant at dose as low as 5×1013/cm2, Si ions begin to produce an amorphous layer that can be wholly reordered at 750℃. Samples implanted at 200℃remain crystalline only with small fraction of disorder due to self-annealing effect during the implantation. The damage annealing in the implanted layer corresponds to the change of electrical parameters got from Hall measurements.

Analysis of trace elements in air particulate matters by non-suppressed ion chromatography

The application of non-suppressed ion chromatography for monitoring of trace elements in air particulate matter was studied in the present investigation. The results indicate that the use of microwave acid digestion method is superior in comparison with the conventional thermal acid digestion method as it leads to higher recovery, better reproducibility, lower volatility loss, better protection against environmental contamination and much less digestion time (5 minutes vs. 24 hours). The use of eluent as extractant is shown to reduce the water dip problem in the chro-matogram. The addition of chelating agent in the eluent coupled with UV detection is shown to provide satisfactory chromatographic separation and good sensitivity for the analysis of transition metals present in the air particulate matter. Using the U.S. National Bureau of Standards Reference Material 1648 Urban Particulate Matter as standard for checking, the analytical procedure is shown to give good recovery and reproducibility for the detection of the following cations and anions in air particulate matter: Fe2 Cu, Mn, Pb, Zn, Mg, Na, HN4+, Cl-, NO3- and SO42-. Field test was also performed to check the applicability of the method and the results obtained were discussed in the present paper.

Analysis of current waveform in plasma based ion implantation processes

The output current waveform of the high voltage pulse modulator is an important information needed to control the plasma immersion ion implantation process, monitor the implantation parameters, for example, implantation dose and sheath condition, and to predict the target temperature as well as secondary electron emission. Our simulation results indicate that the total current peaks at the end of rise time of the applied voltage and this means that such data as dose, temperature and so on is perhaps overestimated from the current waveform because our experimental data acquired using a Rogowski coil and digital oscillator shows the highest current at the beginning of the voltage pulse. The discrepancy can be explained by a displacement current that may be attributed to the changing voltage, sheath capacitance, circuit loading effects, and so on. Our analysis of the current waveform in plasma immersion ion implantation process is accomplished through theoretical simulation and experiments.

Patent portfolio analysis model based on legal status information

Purpose:This research proposes a patent portfolio analysis model based on the legal status information to chart out a competitive landscape in a particular field,enabling organizations to position themselves within the overall technology landscape.Design/methodology/approach:Three indicators were selected for the proposed model:Patent grant rate,valid patents rate and patent maintenance period.The model uses legal status information to perform a qualitative evaluation of relative values of the individual patents,countries or regions’ technological capabilities and competitiveness of patent applicants.The results are visualized by a four-quadrant bubble chart To test the effectiveness of the model,it is used to present a competitive landscape in the lithium ion battery field.Findings:The model can be used to evaluate the values of the individual patents,highlight countries or regions’ positions in the field,and rank the competitiveness of patent applicants in the field.Research limitations:The model currently takes into consideration only three legal status indicators.It is actually feasible to introduce more indicators such as the reason for invalid patents and the distribution of patent maintenance time and associate them with those in the proposed model.Practical implications:Analysis of legal status information in combination of patent application information can help an organization to spot gaps in its patent claim coverage,as well as evaluate patent quality and maintenance situation of its granted patents.The study results can be used to support technology assessment,technology innovation and intellectual property management.Originality/value:Prior studies attempted to assess patent quality or competitiveness by using either single patent legal status indicator or comparative analysis of the impacts of each indicator.However,they are insufficient in presenting the combined effects of the evaluation indicators.Using our model,it appears possible to get a more complete and objective picture of the current competitive situation.

Thermal analysis of EAST neutral beam injectors for long-pulse beam operation

Two sets of neutral beam injectors(NBI-1 and NBI-2) have been mounted on the EAST tokamak since 2014. NBI-1 and NBI-2 are co-direction and counter-direction, respectively. As with indepth physics and engineering study of EAST, the ability of long pulse beam injection should be required in the NBI system. For NBIs, the most important and difficult thing that should be overcome is heat removal capacity of heat loaded components for long-pulse beam extraction. In this article, the thermal state of the components of EAST NBI is investigated using water flow calorimetry and thermocouple temperatures. Results show that(1) operation parameters have an obvious influence on the heat deposited on the inner components of the beamline,(2) a suitable operation parameter can decrease the heat loading effectively and obtain longer beam pulse length, and(3) under the cooling water pressure of 0.25 MPa, the predicted maximum beam pulse length will be up to 260 s with 50 keV beam energy by a duty factor of 0.5. The results present that, in this regard, the EAST NBI-1 system has the ability of long-pulse beam injection.

Instrumentation and application of the ion beam analysis line of the in situ ion beam system

An ion beam analysis system was established on a 1.7 MV tandem accelerator, enabling Rutherford backscattering(RBS), elastic recoil detection(ERD), nuclear reaction analysis(NRA) and channeling measurements. The system was tested by performing qualitative and quantitative analysis of Si, Ni/Si, Bi Fe O3:La/Si,Mo C/Mo/Si and Ti BN/Si samples. RBS of a Bi Fe O3:La film was used as system calibration. Tested by ion beam channeling, a Si(100) is of good crystallinity(χmin= 3.01%). For thin film samples, the measured thickness agrees well with simulation results by SIMNRA. In particular, composition of a Mo C/Mo/Si and Ti BN film samples were analyzed by RBS and non-Rutherford elastic backscattering.

Pathogenetic factors affecting gastroesophageal refluxin patients with esophagitis and concomitant duodenal ulcer:a multivariate analysis

AIM To assess the relationship between gastric acid output (GAO) and both pattern of gastroesophageal reflux (GER) and esophageal lesions, and to evaluate the role of GAO and other potential pathogenetic factors in the development of esophagitis. METHODS Gastric acid secretory testing and 24 h intraesophageal pH monitoring were performed in 31 patients with esophagitis and concomitant duodenal ulcer (E+DU) and compared with those of 72 patients with esophagitis (E) alone. RESULTS The GAO in patients with E+DU was significantly higher than in patients with E ( P <0 05). There was no significant difference between the two groups of patients as to endoscopicl findings and parameters of GER ( P >0 05). A multiple regression analysis with stepwise deletion showed that the pre sence of hiatal hernia (HH), GER in upright position and age appeared to correlate significantly with the presence of esophagitis. CONCLUSIONS No parallel relationship between GAO and severity of GER or esophageal lesions exists in patients with E+DU, and that GAO is not a major pathogenetic factor in GER disease.

Design of the stripping unit and the electromagnetic analysis unit for the E//B NPA on HL-2A/2M tokamak

An E//B neutral particle analyzer is under development for fast ion diagnosis on HL-2A/2 M tokamak.The stripping unit is composed of a stripping room(equipped with two differential tubes and a gas supply bellows),a vacuum chamber and a vacuum pumping system.The stripping efficiency of the stripping room is calculated in the form of global efficiency R×f_(+1),where R is the non-scattered-away rate and f_(+1)is the fraction of charge state+1.The magnetic field of the E//B analyzer is produced with a permanent magnet.The yoke and the poles of the magnet are made of mild steel and the magnet plates are made of Nd Fe B.The magnetic poles are specially designed to focus the ion trajectories and to increase the use rate of the magnet.The shape of the magnet and the electric plates are carefully designed so that the ions are dispersed into two lines of H^(+) and D^(+) on the detector plane.For each line,the energy increases from 10 to 200 ke V from one side to another.

基于ISSA-CNN-BiGRU-Attention的锂电池健康状态评估

健康状态(SOH)预测对于电池管理系统至关重要。针对电池健康状态评估建模复杂、预测误差大等问题,准确的SOH预测仍需要改进。本文结合容量增量分析(ICA)和差分电压分析(DVA)方法,提出了一种改进麻雀优化算法(ISSA)-卷积神经网络(CNN)-双向门控递归单元(BiGRU)-注意力机制(Attention)的锂电池健康状态评估方法。通过对容量增量(IC)曲线和差分电压(DV)曲线进行高斯滤波处理,避免了噪声的影响。通过马里兰大学先进的生命周期工程中心(CALCE)数据进行处理,从滤波后的IC和DV曲线上提取一组新的电池老化特征,所提4个老化特征与SOH之间的Pearson相关系数在0.9以上。使用ISSA-CNN-BiGRU-Attention方法来构建电池SOH的预测模型,将所提方法与CNN、BiGRU、CNN-BiGRU等方法进行比较,实验结果表明,该方法的MAE与RMSE误差最大值分别为0.00544和0.00717,对比其他模型,具有优秀的鲁棒性和准确性,具有更好的实际使用价值。

Three-Dimensional Multi-Phase Microscopic Simulation of Service Life of Recycled Large Aggregate Self-Compacting Concrete

Recycled large aggregate self-compacting concrete (RLA-SCC) within multiple weak areas. These weak areas have poor resistance to chloride ion erosion, which affects the service life of RLA-SCC in the marine environment. A three-dimensional multi-phase mesoscopic numerical model of RLA-SCC was established to simulate the chloride ions transportation in concrete. Experiments of RLA-SCC immersing in chloride solution were carried out to verify the simulation results. The effects of recycled large aggregate (RLA) content and RLA particle size on the service life of concrete were explored. The results indicate that the mesoscopic numerical simulation results are in good agreement with the experimental results. At the same depth, the closer to the surface of the RLA, the greater the chloride ion concentration. The service life of RLA-SCC in marine environment decreases with the increase of RLA content. Compared with the service life of 20% content, the service life of 25% and 30% content decreased by 20% and 42% respectively. Increasing the particle size of RLA can effectively improve the service life of RLA-SCC in chloride environment. Compared with the service life of 50 mm particle size, the service life of 70 mm and 90 mm increased by 61% and 163%, respectively. .

膜片钳技术10年发展:基于CiteSpace和VOSviewer的可视化分析

背景:膜片钳技术作为研究离子通道的“金标准”,已有40多年的发展历史。然而,科研机构的研究内容相对独立,没有对现有研究成果进行系统总结,导致现有研究存在重复性高、创新性弱的现象。因此,急需对膜片钳技术做一个全面的回顾,以明晰现今的研究现状、热点和未来发展方向。目的:总结近10年膜片钳技术领域的研究现状和发展趋势。方法:使用Web of Science核心合集数据库收集了2013-2023年关于膜片钳技术的出版物。采用CiteSpace和VOSviewer软件对出版物数量进行量化分析,并分析文献条目网络,包括国家、机构、期刊、作者、关键词、高被引文献和共被引参考文献。结果与结论:①近10年间,膜片钳技术领域研究已逐步进入稳定发展阶段。②中国和美国是这方面的领先国家,中国科学院是具有核心影响力的机构,《Journal of Neuroscience》是主要出版刊物,PARK,WON SUN团队(韩国全北国立大学)和CHU,LI团队(中国河北省心脑血管病中医药防治研究重点实验室)在该领域作出了杰出的贡献,但团队之间的协作与交流较少,尚未形成网络合作模式。③膜片钳技术主要应用在神经系统的电生理特性及其疾病的病理机制方面,是研究人员持续关注的焦点。④在心血管系统电生理特性及其疾病病理机制的研究方面,对原代心肌细胞、诱导多能干细胞衍生的心肌细胞的电生理特性和心房颤动、心脏毒性、心源性猝死和高血压等心血管疾病的病理机制方面的研究,是近几年来研究的热点。⑤在膜片钳技术与其他生物技术的结合应用方面,关注的是与光遗传学、双光子钙成像等技术的交叉融合,将是一个重要的研究方向。⑥在药物筛选及治疗靶点的识别研究方面,尤其对于膜片钳技术和中药复方的研究,将成为未来组分中药研究中的一大助力。