Optimization Strategies of Na_(3)V_(2)(PO_(4))_(3) Cathode Materials for Sodium‑Ion Batteries

Na_(3)V_(2)(PO_(4))_(3)(NVP)has garnered great attentions as a prospective cathode material for sodium-ion batteries(SIBs)by virtue of its decent theoretical capacity,superior ion conductivity and high structural stability.However,the inherently poor electronic conductivity and sluggish sodium-ion diffusion kinetics of NVP material give rise to inferior rate performance and unsatisfactory energy density,which strictly confine its further application in SIBs.Thus,it is of significance to boost the sodium storage performance of NVP cathode material.Up to now,many methods have been developed to optimize the electrochemical performance of NVP cathode material.In this review,the latest advances in optimization strategies for improving the electrochemical performance of NVP cathode material are well summarized and discussed,including carbon coating or modification,foreign-ion doping or substitution and nanostructure and morphology design.The foreign-ion doping or substitution is highlighted,involving Na,V,and PO_(4)^(3−)sites,which include single-site doping,multiple-site doping,single-ion doping,multiple-ion doping and so on.Furthermore,the challenges and prospects of high-performance NVP cathode material are also put forward.It is believed that this review can provide a useful reference for designing and developing high-performance NVP cathode material toward the large-scale application in SIBs.

Comprehensive influence of individualized nutrition support and nursing strategy on rehabilitation of patients with liver cancer after operation

BACKGROUND Hepatocellular carcinoma ranks among the most prevalent malignant neoplasms.Surgical intervention constitutes a critical therapeutic approach for this condition.Nonetheless,postoperative recovery is frequently influenced by the patient's nutritional status and the quality of nursing care provided.AIM To examine the comprehensive impact of personalized nutritional support and nursing strategies on the postoperative rehabilitation of patients with liver cancer.METHODS In this study,a retrospective comparative analysis was conducted involving 60 post-operative liver cancer patients.The subjects were selected as subjects and divided into two groups based on differing nursing interventions,with each group comprising 30 patients.The control group received standard nutritional support and care,whereas the experimental group received individualized nutritional support and nursing strategies.The study aimed to evaluate the impact of individualized nutrition by comparing the rehabilitation indices,nutritional status,quality of life(QoL),and complication rates between the two groups.RESULTS The results showed that the recovery index of the experimental group was significantly better than that of the control group 2 weeks after surgery,and the average liver function recovery index of the experimental group was 85.significantly higher than that of the control group(73.67±7.19).In terms of nutritional status,the serum albumin level and body weight stabilization rate of the experimental group were also significantly higher than those of the control group,which were 42.33±2.4 g/L and 93.3%,respectively,compared with 36.01±3.85 g/L and 76.7%of the control group.In addition,the average QoL score of the experimental group was 84.66±3.7 points,which was significantly higher than that of the control group(70.92±4.28 points).At the psychological level,the average anxiety score of the experimental group was 1.17±0.29,and the average depression score was 1.47±0.4,which were significantly lower than the 2.26±0.42 and 2.57±0.45 of the control group.This showed that patients in the experimental group were better relieved of anxiety and depression under the individualized nutrition support and nursing strategy.More importantly,the complication rate in the experimental group was only 10%,much lower than the 33.3%in the control group.CONCLUSION Personalized nutritional support and tailored nursing strategies significantly enhance the postoperative rehabilitation of liver cancer patients.Consequently,it is recommended to implement and advocate for these individualized approaches to improve both the recovery outcomes and QoL for these patients.

Zero-determinant strategies in iterated multi-strategy games

Self-serving,rational agents sometimes cooperate to their mutual benefit.The two-player iterated prisoner′s dilemma game is a model for including the emergence of cooperation.It is generally believed that there is no simple ultimatum strategy which a player can control the return of the other participants.The zero-determinant strategy in the iterated prisoner′s dilemma dramatically expands our understanding of the classic game by uncovering strategies that provide a unilateral advantage to sentient players pitted against unwitting opponents.However,strategies in the prisoner′s dilemma game are only two strategies.Are there these results for general multi-strategy games?To address this question,the paper develops a theory for zero-determinant strategies for multi-strategy games,with any number of strategies.The analytical results exhibit a similar yet different scenario to the case of two-strategy games.The results are also applied to the Snowdrift game,the Hawk-Dove game and the Chicken game.

2023-08-23辽宁普兰店M 4.6地震震源参数测定及发震构造初判

2023-08-2318:19辽宁省大连市普兰店区发生M 4.6地震,为准确描述本次地震的震源特征,探讨其孕育和发震机理,本文通过测定地震的震源深度,反演震源机制、矩张量及质心深度,给出震源机制中心解;同时分析震源机制与构造应力场的关系,根据小震重定位结果对发震断层面进行拟合,初步确定了本次地震的发震断层。结果表明,普兰店M 4.6地震初始破裂深度为12.0 km,震源机制解参数为节面Ⅰ走向50°,倾伏角75°,滑动角-169°;节面Ⅱ走向317°,倾伏角80°,滑动角-15°,矩震级M W4.8,最优质心深度12 km;地震矩M_(0)为1.796×10^(16)Nm,矩张量解M_(rr)、M_(tt)、M_(pp)、M_(rt)、M_(rp)、M_(tp)分别为-0.004、0.946、-0.942、0.017、-0.305、-0.125;中心解参数为节面Ⅰ走向47.03°,倾伏角79.04°,滑动角-168.15°;节面Ⅱ走向314.75°,倾伏角78.37°,滑动角-11.19°。构造应力场作用在中心解节面Ⅰ上的相对剪应力为0.877,相对正应力为-0.544;投影于节面Ⅱ上的相对剪应力为0.911,相对正应力为0.161。拟合的断层面走向148.91°,倾伏角89.85°,其在构造应力体系下的滑动角为26.47°。综合分析认为,普兰店M 4.6地震发生在NW向普兰店-长海构造带,是沿应力场最优节面以左旋走滑为错动方式的天然地震。

血浆m1A及其编码器基因对结肠腺癌诊断的综合分析

目的探讨m1A RNA甲基化相关基因和血浆m1A甲基化水平对结肠腺癌(colorectal adenocarcinoma,COAD)的诊断效能,为COAD早期诊断提供新的方案。方法通过UALCAN、The Human Protein Atlas和TCGA-GTEx数据库,分析COAD组织和正常结肠组织中m1A相关基因mRNA和蛋白水平的差异表达。利用ELISA法检测收集于我院初诊的COAD患者和正常人血浆中m1A甲基化水平。结合COAD临床病理特征分析m1A甲基化对COAD的诊断效能。结果m1A编码器和读码器基因的蛋白水平和mRNA水平在COAD组织中的表达显著上调,其中以TRMT6和TRMT10C两个编码器表达升高最为显著。两个编码器基因均可作为COAD诊断,尤其是早期诊断标志物,且其AUC均达到0.9以上。m1A总体甲基化水平在COAD血浆中明显升高,并可作为早期COAD的诊断标志物。结论m1A编码器基因和血浆m1A在COAD中明显升高,有望成为一种新的早期COAD诊断标志物。

高糖环境通过抑制免疫反应基因1的表达诱导巨噬细胞促炎性 M1型极化

目的研究高糖环境对巨噬细胞极化的影响及其潜在分子机制。方法将离体培养的RAW264.7细胞随机分为过表达对照组(NC-OE组)、免疫反应基因1过表达组(IRG1 OE组)、沉默对照组(NC-siRNA组)和IRG1沉默组(IRG1 siRNA组),电穿孔进行质粒转染后再组内随机分为对照组(Con组)和高糖组(HG组),60 mmol/L葡萄糖干预72 h后收集细胞进行检测。CCK-8检测细胞活性,相差显微镜观察细胞形态,Western blotting检测细胞中IRG1、iNOS、Arg-1、IL-1β和IL-10蛋白表达,免疫荧光染色检测细胞中iNOS和Arg-1蛋白荧光水平,ELISA法检测细胞培养基中IL-1β和IL-10蛋白水平。结果与对应Con组相比,HG组IRG1表达均下降(P<0.01),同时出现较多梭形和多突形细胞且两极可见伸展的伪足,iNOS表达升高(P<0.01)、Arg-1表达下降(P<0.05),IL-1β表达和分泌升高(P<0.05)、IL-10分泌下降(P<0.01)。转染IRG1过表达质粒后,与对应NC-OE组相比,IRG1 OE组IRG1水平均升高(P<0.01);高糖环境下,HG-IRG1 OE组梭形和多突形细胞明显减少、iNOS表达下降(P<0.01)、Arg-1表达升高(P<0.01)、IL-1β表达和分泌下降(P<0.01)、IL-10表达和分泌升高(P<0.05)。IRG1沉默后,与对应NC-siRNA组相比,IRG1 siRNA组IRG1水平降低(P<0.01);高糖环境下,HG-IRG1 siRNA组多突形细胞和伪足进一步增加、Arg-1表达降低(P<0.01)、IL-10表达和分泌减少(P<0.05)。结论高糖环境诱导巨噬细胞促炎性M1型极化进而诱发慢性炎症反应,其作用机制可能与抑制巨噬细胞中IRG1蛋白表达有关。

Significant risk factors for intensive care unit-acquired weakness:A processing strategy based on repeated machine learning

BACKGROUND Intensive care unit-acquired weakness(ICU-AW)is a common complication that significantly impacts the patient's recovery process,even leading to adverse outcomes.Currently,there is a lack of effective preventive measures.AIM To identify significant risk factors for ICU-AW through iterative machine learning techniques and offer recommendations for its prevention and treatment.METHODS Patients were categorized into ICU-AW and non-ICU-AW groups on the 14th day post-ICU admission.Relevant data from the initial 14 d of ICU stay,such as age,comorbidities,sedative dosage,vasopressor dosage,duration of mechanical ventilation,length of ICU stay,and rehabilitation therapy,were gathered.The relationships between these variables and ICU-AW were examined.Utilizing iterative machine learning techniques,a multilayer perceptron neural network model was developed,and its predictive performance for ICU-AW was assessed using the receiver operating characteristic curve.RESULTS Within the ICU-AW group,age,duration of mechanical ventilation,lorazepam dosage,adrenaline dosage,and length of ICU stay were significantly higher than in the non-ICU-AW group.Additionally,sepsis,multiple organ dysfunction syndrome,hypoalbuminemia,acute heart failure,respiratory failure,acute kidney injury,anemia,stress-related gastrointestinal bleeding,shock,hypertension,coronary artery disease,malignant tumors,and rehabilitation therapy ratios were significantly higher in the ICU-AW group,demonstrating statistical significance.The most influential factors contributing to ICU-AW were identified as the length of ICU stay(100.0%)and the duration of mechanical ventilation(54.9%).The neural network model predicted ICU-AW with an area under the curve of 0.941,sensitivity of 92.2%,and specificity of 82.7%.CONCLUSION The main factors influencing ICU-AW are the length of ICU stay and the duration of mechanical ventilation.A primary preventive strategy,when feasible,involves minimizing both ICU stay and mechanical ventilation duration.

Engineering Strategies for Suppressing the Shuttle Effect in Lithium–Sulfur Batteries

Lithium–sulfur(Li–S)batteries are supposed to be one of the most potential next-generation batteries owing to their high theoretical capacity and low cost.Nevertheless,the shuttle effect of firm multi-step two-electron reaction between sulfur and lithium in liquid electrolyte makes the capacity much smaller than the theoretical value.Many methods were proposed for inhibiting the shuttle effect of polysulfide,improving corresponding redox kinetics and enhancing the integral performance of Li–S batteries.Here,we will comprehensively and systematically summarize the strategies for inhibiting the shuttle effect from all components of Li–S batteries.First,the electrochemical principles/mechanism and origin of the shuttle effect are described in detail.Moreover,the efficient strategies,including boosting the sulfur conversion rate of sulfur,confining sulfur or lithium polysulfides(LPS)within cathode host,confining LPS in the shield layer,and preventing LPS from contacting the anode,will be discussed to suppress the shuttle effect.Then,recent advances in inhibition of shuttle effect in cathode,electrolyte,separator,and anode with the aforementioned strategies have been summarized to direct the further design of efficient materials for Li–S batteries.Finally,we present prospects for inhibition of the LPS shuttle and potential development directions in Li–S batteries.

How do the landslide and non-landslide sampling strategies impact landslide susceptibility assessment? d A catchment-scale case study from China

The aim of this study is to investigate the impacts of the sampling strategy of landslide and non-landslide on the performance of landslide susceptibility assessment(LSA).The study area is the Feiyun catchment in Wenzhou City,Southeast China.Two types of landslides samples,combined with seven non-landslide sampling strategies,resulted in a total of 14 scenarios.The corresponding landslide susceptibility map(LSM)for each scenario was generated using the random forest model.The receiver operating characteristic(ROC)curve and statistical indicators were calculated and used to assess the impact of the dataset sampling strategy.The results showed that higher accuracies were achieved when using the landslide core as positive samples,combined with non-landslide sampling from the very low zone or buffer zone.The results reveal the influence of landslide and non-landslide sampling strategies on the accuracy of LSA,which provides a reference for subsequent researchers aiming to obtain a more reasonable LSM.

Drug resistance mechanisms in cancers:Execution of prosurvival strategies

One of the quintessential challenges in cancer treatment is drug resistance.Several mechanisms of drug resistance have been described to date,and new modes of drug resistance continue to be discovered.The phenomenon of cancer drug resistance is now widespread,with approximately 90% of cancer-related deaths associated with drug resistance.Despite significant advances in the drug discovery process,the emergence of innate and acquired mechanisms of drug resistance has impeded the progress in cancer therapy.Therefore,understanding the mechanisms of drug resistance and the various pathways involved is integral to treatment modalities.In the present review,I discuss the different mechanisms of drug resistance in cancer cells,including DNA damage repair,epithelial to mesenchymal transition,inhibition of cell death,alteration of drug targets,inactivation of drugs,deregulation of cellular energetics,immune evasion,tumor-promoting inflammation,genome instability,and other contributing epigenetic factors.Furthermore,I highlight available treatment options and conclude with future directions.

Overview of the immunological mechanisms in hepatitis B virus reactivation:Implications for disease progression and management strategies

Hepatitis B virus(HBV)reactivation is a clinically significant challenge in disease management.This review explores the immunological mechanisms underlying HBV reactivation,emphasizing disease progression and management.It delves into host immune responses and reactivation’s delicate balance,spanning innate and adaptive immunity.Viral factors’disruption of this balance,as are interac-tions between viral antigens,immune cells,cytokine networks,and immune checkpoint pathways,are examined.Notably,the roles of T cells,natural killer cells,and antigen-presenting cells are discussed,highlighting their influence on disease progression.HBV reactivation’s impact on disease severity,hepatic flares,liver fibrosis progression,and hepatocellular carcinoma is detailed.Management strategies,including anti-viral and immunomodulatory approaches,are critically analyzed.The role of prophylactic anti-viral therapy during immunosuppressive treatments is explored alongside novel immunotherapeutic interventions to restore immune control and prevent reactivation.In conclusion,this compre-hensive review furnishes a holistic view of the immunological mechanisms that propel HBV reactivation.With a dedicated focus on understanding its implic-ations for disease progression and the prospects of efficient management stra-tegies,this article contributes significantly to the knowledge base.The more profound insights into the intricate interactions between viral elements and the immune system will inform evidence-based approaches,ultimately enhancing disease management and elevating patient outcomes.The dynamic landscape of management strategies is critically scrutinized,spanning anti-viral and immunomodulatory approaches.The role of prophylactic anti-viral therapy in preventing reactivation during immunosuppressive treatments and the potential of innovative immunotherapeutic interventions to restore immune control and proactively deter reactivation.

Equilibrium Strategy of the Pursuit-Evasion Game in Three-Dimensional Space

The pursuit-evasion game models the strategic interaction among players, attracting attention in many realistic scenarios, such as missile guidance, unmanned aerial vehicles, and target defense. Existing studies mainly concentrate on the cooperative pursuit of multiple players in two-dimensional pursuit-evasion games. However, these approaches can hardly be applied to practical situations where players usually move in three-dimensional space with a three-degree-of-freedom control. In this paper,we make the first attempt to investigate the equilibrium strategy of the realistic pursuit-evasion game, in which the pursuer follows a three-degree-of-freedom control, and the evader moves freely. First, we describe the pursuer's three-degree-of-freedom control and the evader's relative coordinate. We then rigorously derive the equilibrium strategy by solving the retrogressive path equation according to the Hamilton-Jacobi-Bellman-Isaacs(HJBI) method, which divides the pursuit-evasion process into the navigation and acceleration phases. Besides, we analyze the maximum allowable speed for the pursuer to capture the evader successfully and provide the strategy with which the evader can escape when the pursuer's speed exceeds the threshold. We further conduct comparison tests with various unilateral deviations to verify that the proposed strategy forms a Nash equilibrium.

Prevention and Control Strategies of Nosocomial Infection and Effectiveness Evaluation in a Tertiary Teaching Hospital during the Epidemic of COVID-19

Objective: To evaluate the role of prevention and control strategies for nosocomial infection in a tertiary teaching hospital during the sudden outbreak of Corona Virus Disease 2019 (COVID-19). Methods: The hospital initiated an emergency plan involving multi-departmental defense and control. It adopted a series of nosocomial infection prevention and control measures, including strengthening pre-examination and triage, optimizing the consultation process, improving the hospital’s architectural composition, implementing graded risk management, enhancing personal protection, and implementing staff training and supervision. Descriptive research was used to evaluate the short-term effects of these in-hospital prevention and control strategies. The analysis compared changes in related evaluation indicators between January 24, 2020 and February 12, 2020 (Chinese Lunar New Year’s Eve 2020 to lunar January 19) and the corresponding lunar period of the previous year. Results: Compared to the same period last year, the outpatient fever rate increased by 1.85-fold (P P Conclusion: The nosocomial infection prevention and control strategies implemented during this specific period improved the detection and control abilities for the COVID-19 source of infection and enhanced the compliance with measures. This likely contributed significantly to avoiding the occurrence of nosocomial infection.

Progress on Transition Metal Ions Dissolution Suppression Strategies in Prussian Blue Analogs for Aqueous Sodium-/Potassium-Ion Batteries

Aqueous sodium-ion batteries(ASIBs)and aqueous potassium-ion batteries(APIBs)present significant potential for large-scale energy storage due to their cost-effectiveness,safety,and environmental compatibility.Nonetheless,the intricate energy storage mechanisms in aqueous electrolytes place stringent require-ments on the host materials.Prussian blue analogs(PBAs),with their open three-dimensional framework and facile synthesis,stand out as leading candidates for aqueous energy storage.However,PBAs possess a swift capacity fade and limited cycle longevity,for their structural integrity is compromised by the pronounced dis-solution of transition metal(TM)ions in the aqueous milieu.This manuscript provides an exhaustive review of the recent advancements concerning PBAs in ASIBs and APIBs.The dissolution mechanisms of TM ions in PBAs,informed by their structural attributes and redox processes,are thoroughly examined.Moreover,this study delves into innovative design tactics to alleviate the dissolution issue of TM ions.In conclusion,the paper consolidates various strategies for suppressing the dissolution of TM ions in PBAs and posits avenues for prospective exploration of high-safety aqueous sodium-/potassium-ion batteries.

Synthesis and modification strategies of g-C_(3)N_(4) nanosheets for photocatalytic applications

Graphitic carbon nitride nanosheets(CNNs)become the most promising member in the carbon nitride family benefitted from their two-dimensional structural features.Recently,great endeavors have been made in the synthesis and modification of CNNs to improve their photocatalytic properties,and many exciting progresses have been gained.In order to elucidate the fundamentals of CNNs based catalysts and provide the insights into rational design of photocatalysis system,we describe recent progress made in CNNs preparation strategies and their applications in this review.Firstly,the physicochemical properties of CNNs are briefly introduced.Secondly,the synthesis approaches of CNNs are reviewed,including top-down stripping strategies(thermal,gas,liquid,and composite stripping)and bottom-up precursor molecules design strategies(solvothermal,template,and supramolecular self-assembly method).Subsequently,the modification strategies based on CNNs in recent years are discussed,including crystal structure design,doping,surface functionalization,constructing 2D heterojunction,and anchoring single-atom.Then the multifunctional applications of g-C_(3)N_(4) nanosheet based materials in photocatalysis including H_(2) evolution,O_(2) evolution,overall water splitting,H_(2)O_(2) production,CO_(2) reduction,N_(2) fixation,pollutant removal,organic synthesis,and sensing are highlighted.Finally,the opportunities and challenges for the development of high-performance CNNs photocatalytic systems are also prospected.

Numerical analysis of hydraulic fracture propagation in deep shale reservoir with different injection strategies

Deep shale reservoirs are characterized by elevated breakdown pressures,diminished fracture complexity,and reduced modified volumes compared to medium and shallow reservoirs.Therefore,it is urgent to investigate particular injection strategies that can optimize breakdown pressure and fracturing efficiency to address the increasing demands for deep shale reservoir stimulation.In this study,the efficiency of various stimulation strategies,including multi-cluster simultaneous fracturing,modified alternating fracturing,alternating shut-in fracturing,and cyclic alternating fracturing,was evaluated.Subsequently,the sensitivity of factors such as the cycle index,shut-in time,cluster spacing,and horizontal permeability was investigated.Additionally,the flow distribution effect within the wellbore was discussed.The results indicate that relative to multi-cluster simultaneous fracturing,modified alternating fracturing exhibits reduced susceptibility to the stress shadow effect,which results in earlier breakdown,extended hydraulic fracture lengths,and more consistent propagation despite an increase in breakdown pressure.The alternating shut-in fracturing benefits the increase of fracture length,which is closely related to the shut-in time.Furthermore,cyclic alternating fracturing markedly lowers breakdown pressure and contributes to uniform fracture propagation,in which the cycle count plays an important role.Modified alternating fracturing demonstrates insensitivity to variations in cluster spacing,whereas horizontal permeability is a critical factor affecting fracture length.The wellbore effect restrains the accumulation of pressure and flow near the perforation,delaying the initiation of hydraulic fractures.The simulation results can provide valuable numerical insights for optimizing injection strategies for deep shale hydraulic fracturing.

Problem identification and revitalization strategies for the recovery and reconstruction of traditional villages in the Ms 6.8 Luding Earthquake

Post-disaster reconstruction is a topic of global concern,and traditional villages have special heritage attributes and need to face more requirements and obstacles in post-disaster reconstruction.This paper summarizes four concepts based on the research on post-disaster reconstruction both domestically and internationally,as well as the recovery and reconstruction of cultural heritage.Through a field survey of traditional villages in the Ms 6.8 Luding earthquake-stricken area,it is found that there are problems such as insufficient awareness of heritage value,misalignment of scientific reconstruction technology,and insufficient protection of reconstruction elements during the reconstruction process.Traditional villages face the risk of declining or even loss of heritage value.In order to effectively protect traditional villages and inherit the carrier of regional culture,four targeted reconstruction response strategies are proposed,i.e.,to"establish special planning for traditional village preservation","emphasize recovery of the authenticity of village heritage","ensure elements for village heritage recovery"and"promote the activation and utilization of village heritage",based on the problems discovered during the survey and the four concepts summarized in the research on post-disaster reconstruction of traditional villages.The research results hope to provide useful reference for ancient cultural areas affected by earthquakes on how to protect cultural heritage during the post-disaster reconstruction process.

Divergent adaptive strategies of paired Meconopsis species and their impact factors along the elevational gradients in the south-eastern margin of Qinghai-Tibet Plateau

Plant functional trait reflects plant growth and resource utilization strategy.Quantitative analysis of variation in plant traits will help us to better understand their environmental adaptation strategies,which is helpful to guide the sustainable utilization with proper theoretical framework and practical implications.Leaf-height-seed(LHS)scheme is to quantify the strategy of plants by the location of three easily measurable functional traits which are specific leaf area(SLA),plant height,and seed mass in threedimensional space.We applied this scheme to paired Meconopsis species to assess the variation of lifehistory traits over elevational gradients in the southeastern margin of Qinghai-Tibet Plateau,identify the environmental factors that shape these traits and compare the intraspecific correlations of LHS traits with elevation to the interspecific patterns that have been previously documented.We measured LHS traits of 3~6 M.punicea and M.integrifolia populations.Furthermore,we analyzed the impact of environmental factors on LHS traits by regression models.The results showed that both species displayed a significant decrease with increasing elevation for plant height and only the SLA of M.punicea decreased significantly with increasing elevation,while the elevation had no significant effect on seed mass.Moreover,only SLA and plant height for M.punicea in Kaka Mountain,SLA of cauline leaf and plant height for M.integrifolia in Gonggangling Mountain were significantly correlated.Along the elevational gradient,these two species adopted the LHS strategies varied to some extent.M.punicea tended to adopt strategies of slow growth,strong survivability and competitiveness(S-L-L),while M.integrifolia tended to have strategies of rapid growth,strong dispersal and weak competitiveness(L-S-S)within our study elevational range.The most important environmental factor for their trait variation is the growing season mean temperature.Variations in LHS traits of a single species suggested that plant strategy determined by the position within this three-factor triangle is not constant along the elevational gradient.Additionally,our within-species analysis generally failed to support the correlations between LHS traits and elevation that had been previously observed across species.

基于RIME-IAOA的混合模型短期光伏功率预测

光伏发电在如今的新能源发展中逐渐成为重点,其中光伏功率预测成为研究的主要方向.为了提升光伏功率预测的精度和效率,提出了RIME-VMD-IAOA-LSTM模型.该模型通过霜冰优化算法(RIME)优化变分模态分解(VMD)的参数来提升分解效率;引入余弦控制因子的动态边界策略来控制算数优化算法(AOA)数值的增长速率从而提升算法的精度和稳定性;利用自适应T分布变异策略来改进AOA的局部搜索能力和全局开发能力,更好地避免局部最优解.两种智能优化算法的加入使得整体模型的预测效率和速度都有很大提升,实验结果表明组合模型RIMEVMD-IAOA-LSTM相比于其他预测模型有较高的光伏功率预测精度.

Advanced strategies for solid electrolyte interface design with MOF materials

Emerging energy technologies,aimed at addressing the challenges of energy scarcity and environmental pollution,have become a focal point for society.However,these actualities present significant challenges for modern energy storage devices.Lithium metal batteries(LMBs)have gained considerable attention due to their high energy density.Nonetheless,their use of liquid electrolytes raises safety concerns,including dendritic growth,electrode corrosion,and electrolyte decomposition.In light of these challenges,solid-state batteries(SSBs)have emerged as a highly promising next-generation energy storage solution by leveraging lithium metal as the anode to achieve improved safety and energy density.Metal organic frameworks(MOFs),characterized by their porous structure,ordered crystal frame,and customizable configuration,have garnered interest as potential materials for enhancing solid-state electrolytes(SSEs)in SSBs.The integration of MOFs into SSEs offers opportunities to enhance the electrochemical performance and optimize the interface between SSEs and electrodes.This is made possible by leveraging the high porosity,functionalized structures,and abundant open metal sites of MOFs.However,the rational design of high-performance MOF-based SSEs for high-energy Li metal SSBs(LMSSBs)remains a significant challenge.In this comprehensive review,we present an overview of recent advancements in MOF-based SSEs for LMSSBs,focusing on strategies for interface optimization and property enhancement.We categorize these SSEs into two main types:MOF-based quasi-solid-state electrolytes and MOF-based all solid-state electrolytes.Within these categories,various subtypes are identified based on the combination mode,additional materials,formation state,preparation method,and interface optimization measures employed.The review also highlights the existing challenges associated with MOF materials in SSBs applications and proposes potential solutions and future development prospects to guide the advancement of MOFs-based SSEs.By providing a comprehensive assessment of the applications of MOFs in LMSSBs,this review aims to offer valuable insights and guidance for the development of MOF-based SSEs,addressing the key issues faced by these materials in SSBs technology.