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大规模商务场景的统计管理理论
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作者 陈松蹊 陈国青 +5 位作者 常晋源 霍红 章魏 张新雨 朱雪宁 王汉生 《中国科学基金》 CSSCI CSCD 北大核心 2024年第5期733-749,共17页
大规模商务场景是科学技术进步与商业实践发展的必然产物。大规模商务场景既覆盖了面向经济主战场的商务实践,也包括国家治理相关的重要领域,还关注数字孪生为核心的新一代数字管理技术。大规模商务场景的统计管理覆盖了管理学、经济学... 大规模商务场景是科学技术进步与商业实践发展的必然产物。大规模商务场景既覆盖了面向经济主战场的商务实践,也包括国家治理相关的重要领域,还关注数字孪生为核心的新一代数字管理技术。大规模商务场景的统计管理覆盖了管理学、经济学、计算机、环境治理、数学、统计学等多个交叉学科,为管理理论的创新提供了独特机遇。如何面向大规模商务场景,发展前沿统计方法,创新管理理论是政府部门、工业界和学术界共同关心的重要问题。基于国家自然科学基金委员会第344期“双清论坛”,本文从大规模商务场景出发,围绕复杂商务场景中的“数据分析方法”“统计计算与优化方法”以及“预测理论与管理决策”三方面进行了深入探讨。基于对相关概念的清晰界定和对国内外的重要文献进行系统梳理,总结了当前国内外研究现状与前沿,分析了发展趋势和方向,凝练了该领域未来5到10年的重大关键科学问题,探讨了前沿研究方向和科学基金资助战略。 展开更多
关键词 大规模商务场景 统计管理理论 数据分析 统计计算与优化 预测理论
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黑暗中的蓝色精灵——化学发光梯度科普实验
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作者 于博荣 张慧姣 +3 位作者 张新瑜 李晓影 陈姝明 韩占刚 《大学化学》 CAS 2024年第9期295-303,共9页
鲁米诺(3-氨基-苯二甲酰肼)作为一种化学发光试剂,在碱性水溶液中可被氧化剂氧化,产生激发态分子,当激发态分子回到基态时会以蓝光的形式释放能量,该现象明显且富有观赏性。基于此,本工作选用日常生活中的爆炸盐和84消毒液,分别用于替... 鲁米诺(3-氨基-苯二甲酰肼)作为一种化学发光试剂,在碱性水溶液中可被氧化剂氧化,产生激发态分子,当激发态分子回到基态时会以蓝光的形式释放能量,该现象明显且富有观赏性。基于此,本工作选用日常生活中的爆炸盐和84消毒液,分别用于替代实验室中的碱性试剂和氧化剂,促进化学发光科普实验的生活化。面对不同知识储备人群,有针对性地进行梯度科普教育:(1)对低龄儿童及青少年,设计并开展了系列趣味实验活动,如“蓝色雨”“蓝色火焰”等,传递化学之趣,寓教于乐,在拓展化学知识的同时体验化学实验的乐趣;(2)对有专业知识背景的本科生,设计了利用化学发光分析仪对爆炸盐中过氧化物的含量进行测定,从解决实际问题入手,激发学习兴趣,加强实验操作技能的训练并提高逻辑思维能力;(3)对社会普通大众,通过生活实际中的化学实验过程,有利于帮助他们走出化学发光的认知误区,透过现象看本质,提升大众理性思维和科学素质。 展开更多
关键词 鲁米诺 爆炸盐 化学发光 梯度科普
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Translocation of telomerase reverse transcriptase coincided with ATP release in postnatal cochlear supporting cells 被引量:1
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作者 Yukai zhang Keyong Tian +9 位作者 Wei Wei Wenjuan Mi Fei Lu Zhenzhen Liu Qingwen Zhu xinyu zhang Panling Geng Jianhua Qiu Yongli Song Dingjun Zha 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第5期1119-1125,共7页
The spontaneous bursts of electrical activity in the developing auditory system are derived from the periodic release of adenosine triphosphate(ATP)by supporting cells in the Kölliker’s organ.However,the mechani... The spontaneous bursts of electrical activity in the developing auditory system are derived from the periodic release of adenosine triphosphate(ATP)by supporting cells in the Kölliker’s organ.However,the mechanisms responsible for initiating spontaneous ATP release have not been determined.Our previous study revealed that telomerase reverse transcriptase(TERT)is expressed in the basilar membrane during the first postnatal week.Its role in cochlear development remains unclear.In this study,we investigated the expression and role of TERT in postnatal cochlea supporting cells.Our results revealed that in postnatal cochlear Kölliker’s organ supporting cells,TERT shifts from the nucleus into the cytoplasm over time.We found that the TERT translocation tendency in postnatal cochlear supporting cells in vitro coincided with that observed in vivo.Further analysis showed that TERT in the cytoplasm was mainly located in mitochondria in the absence of oxidative stress or apoptosis,suggesting that TERT in mitochondria plays roles other than antioxidant or anti-apoptotic functions.We observed increased ATP synthesis,release and activation of purine signaling systems in supporting cells during the first 10 postnatal days.The phenomenon that TERT translocation coincided with changes in ATP synthesis,release and activation of the purine signaling system in postnatal cochlear supporting cells suggested that TERT may be involved in regulating ATP release and activation of the purine signaling system.Our study provides a new research direction for exploring the spontaneous electrical activity of the cochlea during the early postnatal period. 展开更多
关键词 apoptosis ATP release Ca2+transients COCHLEA mitochondrial function reactive oxygen species spontaneous electrical activity supporting cells
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Multi-scale design of silicon/carbon composite anode materials for lithium-ion batteries:A review
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作者 Liu Yang Shuaining Li +6 位作者 Yuming zhang Hongbo Feng Jiangpeng Li xinyu zhang Huai Guan Long Kong Zhaohui Chen 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2024年第10期30-45,I0002,共17页
Silicon/carbon composites,which integrate the high lithium storage performance of silicon with the exceptional mechanical strength and conductivity of carbon,will replace the traditional graphite electrodes for high-e... Silicon/carbon composites,which integrate the high lithium storage performance of silicon with the exceptional mechanical strength and conductivity of carbon,will replace the traditional graphite electrodes for high-energy lithium-ion batteries.Various strategies have been designed to synthesize silicon/carbon composites for tackling the issues of anode pulverization and poor stability in the anodes,thereby improving the lithium storage ability.The effect of the regulation method at each scale on the final negative electrode performance remains unclear.However,it has not been fully clarified how the regulation methods at each scale influence the final anode performance.This review will categorize the materials structure into three scales:molecular scale,nanoscale,and microscale.First,the review will examine modification methods at the molecular scale,focusing on the interfacial bonding force between silicon and carbon.Next,it will summarize various nanostructures and special shapes in the nanoscale to explore the construction of silicon/carbon composites.Lastly,the review will provide an analysis of microscale control approaches,focusing on the formation of composite particle with micron size and the utilization of micro-Si.This review provides a comprehensive overview of the multi-scale design of silicon/carbon composite anode materials and their optimization strategies to enhance the performance of lithium-ion batteries. 展开更多
关键词 Lithium-ion batteries Silicon/carbon composites Molecular scale Nanoscale MICROSCALE
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Effect of matrix thermal properties on laser-induced plasma
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作者 Yuheng Shan An Li +4 位作者 xinyu zhang Wen Yi Ying zhang Xiaodong Liu Ruibin Liu 《Chinese Physics B》 SCIE EI CAS CSCD 2024年第10期331-336,共6页
The matrix thermal properties have an important impact on laser-induced plasma,as the thermal effect dominates the interaction between ns-pulsed laser and matter,especially in metals.We used a series of pure metals an... The matrix thermal properties have an important impact on laser-induced plasma,as the thermal effect dominates the interaction between ns-pulsed laser and matter,especially in metals.We used a series of pure metals and aluminum alloys to measure plasma temperature and electron density through laser-induced breakdown spectroscopy,in order to investigate the effect of matrix thermal properties on laser-induced plasma.In pure metals,a significant negative linear correlation was observed between the matrix thermal storage coefficient and plasma temperature,while a weak correlation was observed with electron density.The results indicate that metals with low thermal conductivity or specific heat capacity require less laser energy for thermal diffusion or melting and evaporation,resulting in higher ablation rates and higher plasma temperatures.However,considering ionization energy,thermal effects may be a secondary factor affecting electron density.The experiment of aluminum alloy further confirms the influence of thermal conductivity on plasma temperature and its mechanism explanation. 展开更多
关键词 laser-induced plasma thermal properties matrix effect thermal storage coefficient plasma temperature
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Synergistic defect passivation and strain compensation toward efficient and stable perovskite solar cells
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作者 Liqiang Bian Zhe Xin +12 位作者 Yuanyuan Zhao Lei Gao Zhi Dou Linde Li Qiyao Guo Jialong Duan Jie Dou Yingli Wang xinyu zhang Chi Jiang Liqing Sun Qiang zhang Qunwei Tang 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2024年第11期327-333,共7页
Rational interface engineering is essential for minimizing interfacial nonradiative recombination losses and enhancing device performance.Herein,we report the use of bidentate diphenoxybenzene(DPOB)isomers as surface ... Rational interface engineering is essential for minimizing interfacial nonradiative recombination losses and enhancing device performance.Herein,we report the use of bidentate diphenoxybenzene(DPOB)isomers as surface modifiers for perovskite films.The DPOB molecules,which contain two oxygen(O)atoms,chemically bond with undercoordinated Pb^(2+) on the surface of perovskite films,resulting in compression of the perovskite lattice.This chemical interaction,along with physical regulations,leads to the formation of high-quality perovskite films with compressive strain and fewer defects.This compressive strain-induced band bending promotes hole extraction and transport,while inhibiting charge recombination at the interfaces.Furthermore,the addition of DPOB will reduce the zero-dimensional(OD) Cs_4PbBr_6 phase and produce the two-dimensional(2D) CsPb_(2)Br_5 phase,which is also conducive to the improvement of device performance.Ultimately,the resulting perovskite films,which are strain-released and defect-passivated,exhibit exceptional device efficiency,reaching 10.87% for carbon-based CsPbBr_(3) device,14.86% for carbon-based CsPbI_(2)Br device,22,02% for FA_(0.97)Cs_(0.03)PbI_(3) device,respectively.Moreover,the unencapsulated CsPbBr_(3) PSC exhibits excellent stability under persistent exposure to humidity(80%) and heat(80℃) for over 50 days. 展开更多
关键词 Perovskite solar cells Nonradiative recombination Chemical interaction Defect passivation Strain engineering
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Data-driven prediction of dimensionless quantities for semi-infinite target penetration by integrating machine-learning and feature selection methods
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作者 Qingqing Chen xinyu zhang +2 位作者 Zhiyong Wang Jie zhang Zhihua Wang 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2024年第10期105-124,共20页
This study employs a data-driven methodology that embeds the principle of dimensional invariance into an artificial neural network to automatically identify dominant dimensionless quantities in the penetration of rod ... This study employs a data-driven methodology that embeds the principle of dimensional invariance into an artificial neural network to automatically identify dominant dimensionless quantities in the penetration of rod projectiles into semi-infinite metal targets from experimental measurements.The derived mathematical expressions of dimensionless quantities are simplified by the examination of the exponent matrix and coupling relationships between feature variables.As a physics-based dimension reduction methodology,this way reduces high-dimensional parameter spaces to descriptions involving only a few physically interpretable dimensionless quantities in penetrating cases.Then the relative importance of various dimensionless feature variables on the penetration efficiencies for four impacting conditions is evaluated through feature selection engineering.The results indicate that the selected critical dimensionless feature variables by this synergistic method,without referring to the complex theoretical equations and aiding in the detailed knowledge of penetration mechanics,are in accordance with those reported in the reference.Lastly,the determined dimensionless quantities can be efficiently applied to conduct semi-empirical analysis for the specific penetrating case,and the reliability of regression functions is validated. 展开更多
关键词 Data-driven dimensional analysis PENETRATION Semi-infinite metal target Dimensionless numbers Feature selection
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Light-emitting devices based on atomically thin MoSe_(2)
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作者 xinyu zhang Xuewen zhang +7 位作者 Hanwei Hu Vanessa Li zhang Weidong Xiao Guangchao Shi Jingyuan Qiao Nan Huang Ting Yu Jingzhi Shang 《Journal of Semiconductors》 EI CAS CSCD 2024年第4期19-35,共17页
Atomically thin MoSe_(2) layers,as a core member of the transition metal dichalcogenides(TMDs)family,benefit from their appealing properties,including tunable band gaps,high exciton binding energies,and giant oscillat... Atomically thin MoSe_(2) layers,as a core member of the transition metal dichalcogenides(TMDs)family,benefit from their appealing properties,including tunable band gaps,high exciton binding energies,and giant oscillator strengths,thus pro-viding an intriguing platform for optoelectronic applications of light-emitting diodes(LEDs),field-effect transistors(FETs),sin-gle-photon emitters(SPEs),and coherent light sources(CLSs).Moreover,these MoSe_(2) layers can realize strong excitonic emis-sion in the near-infrared wavelengths,which can be combined with the silicon-based integration technologies and further encourage the development of the new generation technologies of on-chip optical interconnection,quantum computing,and quantum information processing.Herein,we overview the state-of-the-art applications of light-emitting devices based on two-dimensional MoSe_(2) layers.Firstly,we introduce recent developments in excitonic emission features from atomically thin MoSe_(2) and their dependences on typical physical fields.Next,we focus on the exciton-polaritons and plasmon-exciton polaritons in MoSe_(2) coupled to the diverse forms of optical microcavities.Then,we highlight the promising applications of LEDs,SPEs,and CLSs based on MoSe_(2) and their heterostructures.Finally,we summarize the challenges and opportunities for high-quality emis-sion of MoSe_(2) and high-performance light-emitting devices. 展开更多
关键词 MoSe_(2) light-matter interaction EXCITON POLARITON light-emitting device
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Ab Initio Design of Ni-Rich Cathode Material with Assistance of Machine Learning for High Energy Lithium-Ion Batteries
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作者 xinyu zhang Daobin Mu +6 位作者 Shijie Lu Yuanxing zhang Yuxiang zhang Zhuolin Yang Zhikun Zhao Borong Wu Feng Wu 《Energy & Environmental Materials》 SCIE EI CAS CSCD 2024年第6期74-83,共10页
With the widespread use of lithium-ion batteries in electric vehicles,energy storage,and mobile terminals,there is an urgent need to develop cathode materials with specific properties.However,existing material control... With the widespread use of lithium-ion batteries in electric vehicles,energy storage,and mobile terminals,there is an urgent need to develop cathode materials with specific properties.However,existing material control synthesis routes based on repetitive experiments are often costly and inefficient,which is unsuitable for the broader application of novel materials.The development of machine learning and its combination with materials design offers a potential pathway for optimizing materials.Here,we present a design synthesis paradigm for developing high energy Ni-rich cathodes with thermal/kinetic simulation and propose a coupled image-morphology machine learning model.The paradigm can accurately predict the reaction conditions required for synthesizing cathode precursors with specific morphologies,helping to shorten the experimental duration and costs.After the model-guided design synthesis,cathode materials with different morphological characteristics can be obtained,and the best shows a high discharge capacity of 206 mAh g^(−1)at 0.1C and 83%capacity retention after 200 cycles.This work provides guidance for designing cathode materials for lithium-ion batteries,which may point the way to a fast and cost-effective direction for controlling the morphology of all types of particles. 展开更多
关键词 DESIGN digital image lithium-ion batteries machine learning NCM cathode
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Facilitating prelithiation of silicon carbon anode by localized high-concentration electrolyte for high-rate and long-cycle lithium storage
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作者 Yuanxing zhang Borong Wu +6 位作者 Jiaying Bi xinyu zhang Daobin Mu Xin-Yu zhang Ling zhang Yao Xiao Feng Wu 《Carbon Energy》 SCIE EI CAS CSCD 2024年第6期216-233,共18页
The commercialization of silicon-based anodes is affected by their low initial Coulombic efficiency(ICE)and capacity decay,which are attributed to the formation of an unstable solid electrolyte interface(SEI)layer.Her... The commercialization of silicon-based anodes is affected by their low initial Coulombic efficiency(ICE)and capacity decay,which are attributed to the formation of an unstable solid electrolyte interface(SEI)layer.Herein,a feasible and cost-effective prelithiation method under a localized highconcentration electrolyte system(LHCE)for the silicon-silica/graphite(Si-SiO_(2)/C@G)anode is designed for stabilizing the SEI layer and enhancing the ICE.The thin SiO_(2)/C layers with-NH_(2) groups covered on nano-Si surfaces are demonstrated to be beneficial to the prelithiation process by density functional theory calculations and electrochemical performance.The SEI formed under LHCE is proven to be rich in ionic conductivity,inorganic substances,and flexible organic products.Thus,faster Li+transportation across the SEI further enhances the prelithiation effect and the rate performance of Si-SiO_(2)/C@G anodes.LHCE also leads to uniform decomposition and high stability of the SEI with abundant organic components.As a result,the prepared anode shows a high reversible specific capacity of 937.5 mAh g^(-1)after 400 cycles at a current density of 1 C.NCM 811‖Li-SSGLHCE full cell achieves a high-capacity retention of 126.15 mAh g^(-1)at 1 C over 750 cycles with 84.82%ICE,indicating the great value of this strategy for Si-based anodes in large-scale applications. 展开更多
关键词 localized high-concentration electrolytes prelithiation SEI layer silicon anode
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Investigation of Projectile Impact Behaviors of Graphene Aerogel Using Molecular Dynamics Simulations
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作者 xinyu zhang Wenjie Xia +2 位作者 Yang Wang Liang Wang Xiaofeng Liu 《Computer Modeling in Engineering & Sciences》 SCIE EI 2024年第6期3047-3061,共15页
Graphene aerogel(GA),as a novel solid material,has shown great potential in engineering applications due to its unique mechanical properties.In this study,the mechanical performance of GA under high-velocity projectil... Graphene aerogel(GA),as a novel solid material,has shown great potential in engineering applications due to its unique mechanical properties.In this study,the mechanical performance of GA under high-velocity projectile impacts is thoroughly investigated using full-atomic molecular dynamics(MD)simulations.The study results show that the porous structure and density are key factors determining the mechanical response of GA under impact loading.Specifically,the impact-induced penetration of the projectile leads to the collapse of the pore structure,causing stretching and subsequent rupture of covalent bonds in graphene sheets.Moreover,the effects of temperature on the mechanical performance of GA have been proven to be minimal,thereby highlighting the mechanical stability of GA over a wide range of temperatures.Finally,the energy absorption density(EAD)and energy absorption efficiency(EAE)metrics are adopted to assess the energy absorption capacity of GA during projectile penetration.The research findings of this work demonstrate the significant potential of GA for energy absorption applications. 展开更多
关键词 Graphene aerogel molecular dynamics simulation impact response energy absorption
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Modified Xiaoyao powder for postpartum depression:A systematic review and meta-analysis
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作者 Mengyuan Hu Xiaowen zhang +7 位作者 Xuya zhang Dan Cheng Yali zhang xinyu zhang Lingling Li Xinjie Li Xue Li Yi Lu 《Journal of Traditional Chinese Medical Sciences》 CAS 2024年第1期120-130,共11页
Objective:To evaluate the effectiveness and safety of modified Xiaoyao powder for postpartum depression(PPD)by conducting a systematic review of randomized controlled trials(RCTs).Methods:The Chinese National Knowledg... Objective:To evaluate the effectiveness and safety of modified Xiaoyao powder for postpartum depression(PPD)by conducting a systematic review of randomized controlled trials(RCTs).Methods:The Chinese National Knowledge Infrastructure Databases(CNKI),the Chinese Scientific Journals Database(VIP),Wanfang,Google Scholar,the SinoMed,Embase,Cochrane Library,and PubMed databases were searched from their inception to April 25,2023.The Cochrane Risk of Bias tool was used to assess the quality of the trials.We applied the risk ratio to present dichotomous data and the mean difference to present continuous data.Data with similar characteristics were pooled for meta-analysis and heterogeneity was assessed using I2.Results:This review included 35 trials involving 2848 participants.The quality of the included studies was low(unclear randomization processes and insufficient reporting of blinding).Participants treated with modified Xiaoyao powder plus Western medicine showed lower Hamilton Depression Scale(HAMD)depression score than those who used Western medicine alone(mean difference=-2.15;95%confidence interval:-2.52 to 1.78;P<.00001),and higher effective rate(relative risk=1.19;95%confidence interval:1.15 to 1.24;P<.00001),When comparing modified Xiaoyao alone with Western medicine,the HAMD depression score remained low,however,the efficacy rate was higher in the modified Xiaoyao group.Regarding adverse events,the modified Xiaoyao group reported weight gain,nausea,and diarrhea,but no severe adverse events were reported.Conclusion:Modified Xiaoyao may help relieve depression in PPD when used alone or in combination with Western medicine,with minor side effects.Therefore,future high-quality,large-sample size RCTs are warranted. 展开更多
关键词 Postpartum depression Modified Xiaoyao Chinese medicine Systematic review META-ANALYSIS
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Sclerotherapy in a case of multiple glomuvenous malformation
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作者 Shufen Wang Sijian Wen +2 位作者 Jiarong Liang Hui Lui xinyu zhang 《Chinese Journal of Plastic and Reconstructive Surgery》 2024年第2期79-82,共4页
In this study, we present a representative case of multiple glomuvenous malformation in a 12-year-old female patient. Approximately five years ago, the patient developed multiple blue-purple papules and plaques on her... In this study, we present a representative case of multiple glomuvenous malformation in a 12-year-old female patient. Approximately five years ago, the patient developed multiple blue-purple papules and plaques on her hypogastrium and right thigh, which progressively enlarged and presented tenderness. Histopathological examination confirmed the diagnosis of glomuvenous malformation. Following two injections of lauromacrogol, a significant improvement was observed in the lesions, including a resolution of tenderness. These findings suggest that sclerotherapy not only exhibits evident therapeutic efficacy but also effectively alleviates pain while addressing both aesthetic and therapeutic concerns. 展开更多
关键词 Glomuvenous malformation SCLEROTHERAPY
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爱亦或碍:失能失智老人家庭照顾者的困境及喘息服务介入研究
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作者 李龙燕 贺驿凤 +4 位作者 张芯瑜 刘楠 屈欢 陶俊洁 张滢巍 《管理科学与研究(中英文版)》 2024年第7期11-16,共6页
从2000年步入老年阶段开始,中国的人口老龄化问题不断恶化。根据第七次全国人口普查,我国65岁及以上人口比重达到13.50%,人口老龄化程度已高于世界平均水平(65岁及以上人口占比9.3%),呈现出老年人口规模庞大、老龄化进程明显加快的特点... 从2000年步入老年阶段开始,中国的人口老龄化问题不断恶化。根据第七次全国人口普查,我国65岁及以上人口比重达到13.50%,人口老龄化程度已高于世界平均水平(65岁及以上人口占比9.3%),呈现出老年人口规模庞大、老龄化进程明显加快的特点。随着身体机能退化,出现失能失智等身体问题的老年群体数量庞大。而我国的传统“养老”文化,使得较多失能失智老人选择居家照护。对失能失智老人家庭照顾者来说,他们承受着巨大的经济和生理、心理压力,易产生疲倦感、厌恶感、自责感。本研究以失能失智老人家庭照顾者面临的问题和需求为切入点,有针对性地开展喘息服务介入活动,疏解其照顾压力。在探析介入服务的过程与困境的基础上,提出介入失能失智老人家庭照顾者的建议。 展开更多
关键词 失能失智老人 家庭照顾者 照护压力 喘息服务
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全过程人民民主视角下农民政治参与问题研究
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作者 张馨予 张海钟 《管理科学与研究(中英文版)》 2024年第3期162-166,共5页
党的二十大报告明确指出:“全过程人民民主是社会主义民主政治的本质属性,是最广泛、最真实、最管用的民主。”农民政治参与作为民主的“最后一公里”,保障其有效地实现和运行就是十分重要的课题。本文讨论了农民政治参与的现状和优化路... 党的二十大报告明确指出:“全过程人民民主是社会主义民主政治的本质属性,是最广泛、最真实、最管用的民主。”农民政治参与作为民主的“最后一公里”,保障其有效地实现和运行就是十分重要的课题。本文讨论了农民政治参与的现状和优化路径,认为在加大政策宣传、建设有效政治参与空间、健全农民政治参与制度等方面可以有效促进农村基层民主政治制度建设。 展开更多
关键词 农民 政治参与 全过程人民民主
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A Thermoregulatory Flexible Phase Change Nonwoven for All‑Season High‑Efficiency Wearable Thermal Management 被引量:4
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作者 Hanqing Liu Feng Zhou +9 位作者 Xiaoyu Shi Keyan Sun Yan Kou Pratteek Das Yangeng Li xinyu zhang Srikanth Mateti Ying Chen Zhong‑Shuai Wu Quan Shi 《Nano-Micro Letters》 SCIE EI CAS CSCD 2023年第2期259-270,共12页
Phase change materials have a key role for wearable thermal management,but suffer from poor water vapor permeability,low enthalpy value and weak shape stability caused by liquid phase leakage and intrinsic rigidity of... Phase change materials have a key role for wearable thermal management,but suffer from poor water vapor permeability,low enthalpy value and weak shape stability caused by liquid phase leakage and intrinsic rigidity of solid–liquid phase change materials.Herein,we report for the first time a versatile strategy for designed assembly of high-enthalpy flexible phase change nonwovens(GB-PCN)by wet-spinning hybrid grapheneboron nitride(GB)fiber and subsequent impregnating paraffins(e.g.,eicosane,octadecane).As a result,our GB-PCN exhibited an unprecedented enthalpy value of 206.0 J g^(−1),excellent thermal reliability and anti-leakage capacity,superb thermal cycling ability of 97.6%after 1000 cycles,and ultrahigh water vapor permeability(close to the cotton),outperforming the reported PCM films and fibers to date.Notably,the wearable thermal management systems based on GB-PCN for both clothing and face mask were demonstrated,which can maintain the human body at a comfortable temperature range for a significantly long time.Therefore,our results demonstrate huge potential of GB-PCN for human-wearable passive thermal management in real scenarios. 展开更多
关键词 Phase change materials GRAPHENE Boron nitride NONWOVEN Wearable thermal management
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Self-Modifying Nanointerface Driving Ultrahigh Bidirectional Thermal Conductivity Boron Nitride-Based Composite Flexible Films 被引量:2
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作者 Taoqing Huang xinyu zhang +5 位作者 Tian Wang Honggang zhang Yongwei Li Hua Bao Min Chen Limin Wu 《Nano-Micro Letters》 SCIE EI CAS CSCD 2023年第1期14-24,共11页
While boron nitride(BN) is widely recognized as the most promising thermally conductive filler for rapidly developing high-power electronic devices due to its excellent thermal conductivity and dielectric properties,a... While boron nitride(BN) is widely recognized as the most promising thermally conductive filler for rapidly developing high-power electronic devices due to its excellent thermal conductivity and dielectric properties,a great challenge is the poor vertical thermal conductivity when embedded in composites owing to the poor interracial interaction causing severe phonon scattering.Here,we report a novel surface modification strategy called the "self-modified nanointerface" using BN nanocrystals(BNNCs) to efficiently link the interface between BN and the polymer matrix.Combining with ice-press assembly method,an only 25 wt% BNembedded composite film can not only possess an in-plane thermal conductivity of 20.3 W m-1K-1but also,more importantly,achieve a through-plane thermal conductivity as high as 21.3 W m-1K-1,which is more than twice the reported maximum due to the ideal phonon spectrum matching between BNNCs and BN fillers,the strong interaction between the self-modified fillers and polymer matrix,as well as ladder-structured BN skeleton.The excellent thermal conductivity has been verified by theoretical calculations and the heat dissipation of a CPU.This study provides an innovative design principle to tailor composite interfaces and opens up a new path to develop high-performance composites. 展开更多
关键词 Thermal management materials Boron nitride Thermal conductivity Interfacial thermal resistance
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Stable cycling of LiNi_(0.9)Co_(0.05)Mn_(0.05)O_(2)/lithium metal batteries enabled by synergistic tuning the surface stability of cathode/anode 被引量:1
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作者 Chunli Li xinyu zhang +8 位作者 Zhuolin Yang Haijian Lv Tinglu Song Shijie Lu Yuxiang zhang Tianwen Yang Fan Xu Feng Wu Daobin Mu 《Journal of Energy Chemistry》 SCIE EI CSCD 2023年第12期342-350,I0009,共10页
Ni-rich layered oxides(LiNi_(0.9)Co_(0.05)Mn_(0.05)O_(2))show great potential in long-range and low-cost lithiumion batteries.However,due to the high surface sensitivity,their practical application is hindered by inte... Ni-rich layered oxides(LiNi_(0.9)Co_(0.05)Mn_(0.05)O_(2))show great potential in long-range and low-cost lithiumion batteries.However,due to the high surface sensitivity,their practical application is hindered by interfacial instability with electrolytes under high voltage for long cyclic life.Herein,by combining both firstprinciple calculations and time-of-flight secondary ion mass spectrometry(TOF-SIMS),a novel surface fluorinated reconstruction(SFR)mechanism is proposed to improve the interfacial stability under high voltage,which could effectively regulate the surface fluoride species to desensitize the LiNi_(0.9)Co_(0.05)Mn_(0.05)O_(2)interface.We demonstrate here that by tuning the ratio of fluoride species,the LiNi_(0.9)Co_(0.05)Mn_(0.05)O_(2)/Li battery could achieve excellent long-term and high voltage performance(163.5 mA h g^(-1)at 0.5 C for 300 cycles under 4.4 V),while the controlled sample decayed to 125.4 mA h g^(-1)after 300 cycles.Moreover,the favorable cross-talk effect induced by SFR further facilitates the incorporation of suitable amounts of Ni ions into the construction of stable solid electrolyte interface(SEI)layer for anode surface.Therefore,the ultra-long cycling stability under high voltage can be achieved by the robust cathode/electrolyte and Li/electrolyte interfaces,which results in excellent interfacial stability after long cycling.This work provides new insights into the surface design of cathode materials and improves the stability of the electrode-electrode interface under high voltage. 展开更多
关键词 Ni-rich layered oxides Surface fluorinated reconstruction Interfacial stability TOF-SIMS Cross-talk effect
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Nano silica aerogel-induced formation of an organic/alloy biphasic interfacial layer enables construction of stable high-energy lithium metal batteries 被引量:1
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作者 Chengwei Ma xinyu zhang +6 位作者 Chengcai Liu Yuanxing zhang Yuanshen Wang Ling Liu Zhikun Zhao Borong Wu Daobin Mu 《Green Energy & Environment》 SCIE EI CAS CSCD 2023年第4期1071-1080,共10页
Lithium metal batteries represent promising candidates for high-energy-density batteries, however, many challenges must still be overcome,e.g., interface instability and dendrite growth. In this work, nano silica aero... Lithium metal batteries represent promising candidates for high-energy-density batteries, however, many challenges must still be overcome,e.g., interface instability and dendrite growth. In this work, nano silica aerogel was employed to generate a hybrid film with high lithium ion conductivity(0.6 mS cm^(-1)at room temperature) via an in situ crosslinking reaction. TOF-SIMS profile analysis has revealed conversion mechanism of hybrid film to Li–Si alloy/Li F biphasic interface layer, suggesting that the Li–Si alloy and Li F-rich interface layer promoted rapid Li+transport and shielded the Li anodes from corrosive reactions with electrolyte-derived products. When coupled with nickel-cobalt-manganese-based cathodes, the batteries achieve outstanding capacity retention over 1000 cycles at 1 C. Additionally the developed film coated on Li enabled high coulombic efficiency(99.5%) after long-term cycling when coupled with S cathodes. Overall, the results presented herein confirm an effective strategy for the development of high-energy batteries. 展开更多
关键词 Lithium metal batteries Nano silica aerogel In situ crosslinking Biphasic interface layer Li–Si alloy
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Tuning the electrochemical behaviors of N-doped LiMn_(x)Fe_(1–x)PO_(4)/C via cation engineering with metal-organic framework-templated strategy 被引量:1
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作者 Yilin Li Zhaohui Xu +4 位作者 xinyu zhang Zhenyu Wu Jian-En Zhou Jinjiang zhang Xiaoming Lin 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2023年第10期239-253,I0008,共16页
LiFePO_(4),as a prevailing cathode material for lithium-ion batteries(LIBs),still encounters issues such as intrinsic poor electronic conductivity,inferior Li-ion diffusion kinetic,and two-phase transformation mechani... LiFePO_(4),as a prevailing cathode material for lithium-ion batteries(LIBs),still encounters issues such as intrinsic poor electronic conductivity,inferior Li-ion diffusion kinetic,and two-phase transformation mechanism involving substantial structural rearrangements,resulting in unsatisfactory rate performance.Carbon coating,cation doping,and morphological control have been widely employed to reconcile these issues.Inspired by these,we propose a synthetic route with metal–organic frameworks(MOFs)as self-sacrificial templates to simultaneously realize shape modulation,Mn doping,and N-doped carbon coating for enhanced electrochemical performances.The as-synthesized Li MnxFe1–xPO4/C(x=0,0.25,and0.5)deliver tunable electrochemical behaviors induced by the MOF templates,among which LiMn_(0.25)Fe_(0.75)PO_(4)/C outperforms its counterparts in cyclability(164.7 mA h g^(-1)after 200 cycles at 0.5 C)and rate capability(116.3 mA h g^(-1)at 10 C).Meanwhile,the ex-situ XRD reveals a dominant single-phase solid solution mechanism of LiMn_(0.25)Fe_(0.75)PO_(4)/C during delithiation,contrary to the pristine LiFePO_(4),without major structural reconstruction,which helps to explain the superior rate performance.Furthermore,the density functional theory(DFT)calculations verify the effects of Mn doping and embody the superiority of LiMn_(0.25)Fe_(0.75)PO_(4)/C as a LIB cathode,which well supports the experimental observations.This work provides insightful guidance for the design of tunable MOF-derived mixed transitionmetal systems for advanced LIBs. 展开更多
关键词 LiMn_(x)Fe_(1–x)PO_(4)/C Mn doping Metal-organic framework Cathode
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