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Call for Papers from Agricultural Products Processing and Storage
1
《肉类研究》 北大核心 2026年第1期I0017-I0017,共1页
Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim ... Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim to offer a platform for the rapid dissemination of signifi cant,novel,and high-impact research in the fi elds of agricultural product processing science,technology,engineering,and nutrition.Additionally,supplemental issues are curated and published to facilitate in-depth discussions on special topics. 展开更多
关键词 NUTRITION SCIENCE open access journal agricultural products processing storage technology ENGINEERING agricultural product
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Call for Papers from Agricultural Products Processing and Storage
2
《肉类研究》 北大核心 2026年第7期I0011-I0011,共1页
Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim ... Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim to offer a platform for the rapid dissemination of signifi cant,novel,and high-impact research in the fi elds of agricultural product processing science,technology,engineering,and nutrition.Additionally,supplemental issues are curated and published to facilitate in-depth discussions on special topics. 展开更多
关键词 NUTRITION SCIENCE open access journal agricultural products processing storage technology ENGINEERING agricultural product
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Call for Papers from Agricultural Products Processing and Storage
3
《肉类研究》 北大核心 2026年第6期I0011-I0011,共1页
Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim ... Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim to offer a platform for the rapid dissemination of signifi cant,novel,and high-impact research in the fi elds of agricultural product processing science,technology,engineering,and nutrition.Additionally,supplemental issues are curated and published to facilitate in-depth discussions on special topics. 展开更多
关键词 NUTRITION SCIENCE open access journal agricultural products processing storage technology ENGINEERING agricultural product
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Advances in modification approaches for Mg-based hydrogen storage materials
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作者 CHENG Shuang LI Fei +6 位作者 WANG Yuqi WANG Xiangyi GUAN Sinan WANG Yi WANG Yue OU Guancheng XU Ming 《燃料化学学报(中英文)》 北大核心 2026年第2期46-63,共18页
As one of the most promising new energy sources,hydrogen energy is expected to usher in a full-fledged“hydrogen economy”in the 21st century.Compared with traditional high-pressure gaseous and cryogenic liquid hydrog... As one of the most promising new energy sources,hydrogen energy is expected to usher in a full-fledged“hydrogen economy”in the 21st century.Compared with traditional high-pressure gaseous and cryogenic liquid hydrogen storage methods,solid-state chemical hydrogen storage shows significant advantages in safety,high efficiency,and cost-effectiveness.Magnesium-based lightweight hydrogen storage materials have attracted widespread attention due to their high gravimetric hydrogen storage density(7.6%)and favorable reversibility.However,their sluggish reaction kinetics and stringent operating conditions(with H2 release temperatures exceeding 350°C and H2 absorption pressures above 4 MPa)pose major challenges for practical applications.Domestic and international researchers have conducted in-depth studies to address these issues,achieving substantial progress in the modification of magnesium-based hydrogen storage alloys.This paper systematically elaborates on major modification techniques such as alloying,nanostructuring,and catalytic material doping,providing a comprehensive analysis of the strengths and limitations of each approach.Furthermore,it offers prospects for the future development of magnesium-based hydrogen storage materials by integrating current theoretical and experimental research findings. 展开更多
关键词 magnesium hydride solid-state hydrogen storage MODIFICATION KINETICS THERMODYNAMICS
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Selecting the molecular components of a pitch to produce a hard carbon anode with a high sodium storage capacity
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作者 Wang Peixiang Wang Bin +7 位作者 Li Yuqi Wang Wanli Sun Yi Song Longsen Liu Chenhao P.Iamprasertkun Hu Han Wu Mingbo 《新型炭材料(中英文)》 北大核心 2026年第1期142-156,共15页
Pitch is an excellent precursor for the production of hard carbon,with pre-oxidation crucial process in the fabrication.The structural changes in the different molecular components of pitch during thermochemical treat... Pitch is an excellent precursor for the production of hard carbon,with pre-oxidation crucial process in the fabrication.The structural changes in the different molecular components of pitch during thermochemical treatment are a key factor in determining the sodium-ion storage of pitchbased hard carbon anodes.We investigated the effects of the different molecular structures in the asphaltene precursor,including aromatic rings and aliphatic chains,on the sodiumion storage behavior of the resulting carbon.We found that polar oxygen functional groups limit the steric hindrance caused by the aromatic rings in pitch,and thus facilitate the introduction of cross-linked structures.During high-temperature carbonization,aromatic rings form a rigid carbon framework that prevents the rearrangement of ordered carbon layers,leading to a short-range disordered carbon structure and promotes the production of closed pores.For example,a material prepared from asphaltene,which contains a large number of oxygen-containing functional groups and macromolecular aromatic rings,using pre-oxidation at 300℃ and carbonization at 1200℃ had a reversible capacity of 316.7 mAh g^(−1) when used as the anode for sodium ion batteries.Our research provides a theoretical basis for the selection of raw materials for the development of high-quality pitch-based hard carbons. 展开更多
关键词 Energy storage ASPHALTENE PRE-OXIDATION Hard carbon Sodium-ion batteries
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Computational study of TM_(8)B_(6)(TM=Ni,Pd)as reversible hydrogen storage materials
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作者 YU Yinhu TANG Yupeng +2 位作者 WANG Guilin YANG Haiying LI Nan 《无机化学学报》 北大核心 2026年第6期1321-1336,共16页
Two density functional theory methods were employed to evaluate the H_(2) storage capabilities of metalloborospherenes TM_(8)B_(6)(TM=Ni,Pd).Consequently,the superatoms Ni8B6 and Pd8B6,which accommodate 40 and 32 H_(2... Two density functional theory methods were employed to evaluate the H_(2) storage capabilities of metalloborospherenes TM_(8)B_(6)(TM=Ni,Pd).Consequently,the superatoms Ni8B6 and Pd8B6,which accommodate 40 and 32 H_(2) molecules,respectively,exhibit gravimetric H_(2) uptake capacities of 13.134%and 6.562%,respectively.The average binding energies of Ni_(8)B_(6)(H_(2))_(40) and Pd_(8)B_(6)(H_(2))_(32) fall within the optimal range for reversible H_(2) storage applications.The interactions between H_(2) molecules and the parent structures were characterized using various wave function analysis methods.Polarization effects,alongside the Kubas mechanism,are pivotal to the adsorption of H_(2) on TM_(8)B_(6).Moreover,the investigations examine the effect of temperature on the H_(2) storage capacity of TM_(8)B_(6) at atmospheric pressure.Atom-centered density-matrix propagation molecular dynamics simulations confirm the reversibility of H_(2) adsorption and desorption cycles.The thermodynamic analyses of the desorption behavior of H_(2) molecules were conducted via a three-dimensional graph,plotted based on the relationship between the number of adsorbed H_(2) molecules and temperature as well as pressure,revealing that the majority of adsorbed H_(2) molecules can be released at 0.5 MPa and 358 K.Compared to the respective monomeric counterparts,the H_(2) storage densities of(TM_(8)B_(6))_(2) dimers exhibit a slight reduction. 展开更多
关键词 hydrogen storage metallo-borospherene superatom density functional theory atom centered density matrix propagation
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Laser-synthesized metastable bismuth nanocrystals chemically bonded to reduced graphene oxide for excellent lithium storage
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作者 Su Yanxia Zhang Xiuhai +5 位作者 Qiu Yuqian Ban Miaohan Zhang Jinbo Li Chong Xu Fei Wang Hongqiang 《新型炭材料(中英文)》 北大核心 2026年第2期365-378,I0009-I0021,共27页
The poor interface contact between Bi nanoparticles and reduced graphene oxide(rGO)hinders the transfer of ions/electrons for lithium-ion batteries.We propose an innovative approach for fab-ricating ultrafine bismuth ... The poor interface contact between Bi nanoparticles and reduced graphene oxide(rGO)hinders the transfer of ions/electrons for lithium-ion batteries.We propose an innovative approach for fab-ricating ultrafine bismuth nanocrystals chemically bonded to reduced graphene oxide(Bi-rGO)by liquid-phase pulsed laser irradiation followed by a solvothermal reaction with graphene oxide.Metastable Bi nanocrystals synthesized by a laser(5.5 nm)are then combined with graphene oxide in a solvothermal process,undergoing lattice restructuring and shrinking to a record-small size of 2 nm,which is the smallest reported for Bi/C composites as far as we know.The Bi nanocrystals are uniformly anchored onto rGO nanosheets by strong Bi-O-C bonds,which not only suppress particle aggregation but also establish efficient ion/electron transport channels and alleviate volume expansion during lithiation.As a result,the Bi-rGO-2 anode consisting of 2 nm Bi nanocrystals has an exceptional reversible capacity of 586.7 mAh g^(-1) over 500 cycles under a current density of 100 mA·g^(-1),nearly doubling that of a Bulk Bi/rGO composite anode(318 mAh·g^(-1)).Theoretical calculations confirm a higher binding energy between Bi and rGO at small particle sizes,while kinetic analysis reveals accelerated Li+diffusion.This work provides a scalable way to design high-performance alloy anodes through metastable nanocrystal engineering and covalent interface coupling. 展开更多
关键词 Laser irradiation technology Metastable Bi nanocrystals Reduced graphene oxide Interface compatibility Lithium storage
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Responses of cotton seed germination characteristics and storage substance metabolism to saline‒alkali stress
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作者 CHEN Ying DUAN Jinbo +6 位作者 MENG Fancheng GAO Bo YI Qiang JIAO Tianqi ZHANG Hongxia TIAN Liwen LUO Honghai 《Journal of Cotton Research》 2026年第1期1-14,共14页
Background The inhibition of cottonseed germination by soil salinization is a key obstacle affecting cotton production in Xinjiang.The most economical and effective measures to alleviate soil salinization damage are t... Background The inhibition of cottonseed germination by soil salinization is a key obstacle affecting cotton production in Xinjiang.The most economical and effective measures to alleviate soil salinization damage are to explore the mechanism of cotton salt tolerance and to cultivate and popularize salt-tolerant varieties.Four cotton varieties were used in this study:the highly saline-alkali-resistant varieties Xinluzhong 82 and Xinluzhong 68 and the saline-alkali-sensitive varieties Xinluzhong 42 and Xinshi H12.These varieties were exposed to three different mixed saline-alkali concentrations:0 mmol·L^(-1)(control,CK),219 mmol·L^(-1),and 365 mmol·L^(-1).Results The germination characteristics,root traits,and changes in the storage material contents(crude fat,total protein,and total sugar)during cotton seed germination were analyzed.The results revealed that with increasing mixed saline-alkali concentrations,the relative water absorption,water absorption rate,germination rate,root length,diameter,area,and volume,and total sugar content of cotton decreased by 22.7%-90.1%on average,whereas the crude fat and protein concentrations increased by 7.6%on average.Under saline-alkali stress,cotton seeds undergo metabolic reallocation characterized by a decrease in carbohydrate content and the accumulation of lipids/proteins,potentially mitigating energy deficits and structural damage.Conclusions Under saline-alkali stress,highly resistant cotton varieties presented increased growth and adaptation during early root emergence.This was achieved by increasing water uptake and adjusting the root diameter.Under 365 mmol·L^(-1)saline-alkali stress,damages in these resistant varieties were correlated with their crude fat,protein,and storage substance contents.Changes in stored nutrients likely support cotton growth under stress.These findings reveal the physiological mechanisms underlying saline-alkali resistance in cotton and provide a scientific basis for the breeding of tolerant varieties.This study identified the key factors affecting cottonseed germination and offered a new direction for breeding programs. 展开更多
关键词 SALINE-ALKALI Cotton seeds Germination period Root characteristics storage substances
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Impact of pitch fraction oxidation on the structure and sodium storage properties of derived carbon materials 被引量:2
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作者 QI Su-xia YANG Tao +6 位作者 SONG Yan ZHAO Ning LIU Jun-qing TIAN Xiao-dong WU Jin-ru LI Hui LIU Zhan-jun 《新型炭材料(中英文)》 北大核心 2025年第2期421-439,共19页
Pitch produced by the lique-faction of coal was divided into two frac-tions:soluble in toluene(TS)and insol-uble in toluene but soluble in pyridine(TI-PS),and their differences in molecu-lar structure and oxidation ac... Pitch produced by the lique-faction of coal was divided into two frac-tions:soluble in toluene(TS)and insol-uble in toluene but soluble in pyridine(TI-PS),and their differences in molecu-lar structure and oxidation activity were studied.Several different carbon materi-als were produced from them by oxida-tion in air(350℃,300 mL/min)fol-lowed by carbonization(1000℃ in Ar),and the effect of the cross-linked structure on their structure and sodium storage properties was investigated.The results showed that the two pitch fractions were obviously different after the air oxidation.The TS fraction with a low degree of condensation and abundant side chains had a stronger oxidation activity and thus introduced more cross-linked oxygen-containing functional groups C(O)―O which prevented carbon layer rearrangement during the carbonization.As a result,a disordered hard carbon with more defects was formed,which improved the electrochemical performance.Therefore,the carbon materials derived from TS(O-TS-1000)had an obvious disordered structure and a larger layer spacing,giving them better sodium storage perform-ance than those derived from the TI-PS fraction(O-TI-PS-1000).The specific capacity of O-TS-1000 was about 250 mAh/g at 20 mA/g,which was 1.67 times higher than that of O-TI-PS-1000(150 mAh/g). 展开更多
关键词 Pitch fractions Air oxidation Derived carbon materials Na^(+)storage
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Modifying the pore structure of biomass-derived porous carbon for use in energy storage systems 被引量:1
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作者 XIE Bin ZHAO Xin-ya +5 位作者 MA Zheng-dong ZHANG Yi-jian DONG Jia-rong WANG Yan BAI Qiu-hong SHEN Ye-hua 《新型炭材料(中英文)》 北大核心 2025年第4期870-888,共19页
The development of sustainable electrode materials for energy storage systems has become very important and porous carbons derived from biomass have become an important candidate because of their tunable pore structur... The development of sustainable electrode materials for energy storage systems has become very important and porous carbons derived from biomass have become an important candidate because of their tunable pore structure,environmental friendliness,and cost-effectiveness.Recent advances in controlling the pore structure of these carbons and its relationship between to is energy storage performance are discussed,emphasizing the critical role of a balanced distribution of micropores,mesopores and macropores in determining electrochemical behavior.Particular attention is given to how the intrinsic components of biomass precursors(lignin,cellulose,and hemicellulose)influence pore formation during carbonization.Carbonization and activation strategies to precisely control the pore structure are introduced.Finally,key challenges in the industrial production of these carbons are outlined,and future research directions are proposed.These include the establishment of a database of biomass intrinsic structures and machine learning-assisted pore structure engineering,aimed at providing guidance for the design of high-performance carbon materials for next-generation energy storage devices. 展开更多
关键词 Energy storage systems Porous carbon Biomass precursors Pore structure Machine learning-assisted
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Call for Papers from Agricultural Products Processing and Storage
11
《肉类研究》 北大核心 2025年第11期I0017-I0017,共1页
Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim ... Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim to offer a platform for the rapid dissemination of signifi cant,novel,and high-impact research in the fi elds of agricultural product processing science,technology,engineering,and nutrition.Additionally,supplemental issues are curated and published to facilitate in-depth discussions on special topics. 展开更多
关键词 NUTRITION SCIENCE agricultural products open access journal agricultural products processing storage technology engineering
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Call for Papers from Agricultural Products Processing and Storage
12
《肉类研究》 北大核心 2025年第10期I0017-I0017,共1页
Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim ... Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim to offer a platform for the rapid dissemination of signifi cant,novel,and high-impact research in the fi elds of agricultural product processing science,technology,engineering,and nutrition.Additionally,supplemental issues are curated and published to facilitate in-depth discussions on special topics. 展开更多
关键词 NUTRITION SCIENCE agricultural products open access journal agricultural products processing storage technology engineering
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Call for Papers from Agricultural Products Processing and Storage
13
《肉类研究》 北大核心 2025年第9期I0017-I0017,共1页
Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim ... Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim to offer a platform for the rapid dissemination of signifi cant,novel,and high-impact research in the fi elds of agricultural product processing science,technology,engineering,and nutrition.Additionally,supplemental issues are curated and published to facilitate in-depth discussions on special topics. 展开更多
关键词 NUTRITION SCIENCE agricultural products open access journal agricultural products processing storage technology engineering
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Call for Papers from Agricultural Products Processing and Storage
14
《食品科学》 北大核心 2025年第20期I0022-I0022,共1页
Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim ... Agricultural Products Processing and Storage(ISSN 3059-4510,Owner:Hunan Academy of Agricultural Sciences,China.Production and hosting:Springer Nature)is an international,peer-reviewed open access journal with the aim to offer a platform for the rapid dissemination of signifi cant,novel,and high-impact research in the fi elds of agricultural product processing science,technology,engineering,and nutrition.Additionally,supplemental issues are curated and published to facilitate in-depth discussions on special topics. 展开更多
关键词 NUTRITION SCIENCE agricultural products open access journal agricultural products processing storage technology engineering
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A review of 3D graphene materials for energy storage and conversion
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作者 WU Zi-yuan XU Chi-wei +2 位作者 ZENG Jin-jue JIANG Xiang-fen WANG Xue-bin 《新型炭材料(中英文)》 北大核心 2025年第3期477-518,共42页
Three-dimensional(3D)graphene monoliths are a new carbon material,that has tremendous potential in the fields of energy conversion and storage.They can solve the limitations of two-dimensional(2D)graphene sheets,inclu... Three-dimensional(3D)graphene monoliths are a new carbon material,that has tremendous potential in the fields of energy conversion and storage.They can solve the limitations of two-dimensional(2D)graphene sheets,including interlayer restacking,high contact resistance,and insufficient pore accessibility.By constructing interconnected porous networks,3D graphenes not only retain the intrinsic advantages of 2D graphene sheets,such as high specific surface area,excellent electrical and thermal conductivities,good mechanical properties,and outstanding chemical stability,but also enable efficient mass transport of external fluid species.We summarize the fabrication methods for 3D graphenes,with a particular focus on their applications in energy-related systems.Techniques including chemical reduction assembly,chemical vapor deposition,3D printing,chemical blowing,and zinc-tiered pyrolysis have been developed to change their pore structure and elemental composition,and ways in which they can be integrated with functional components.In terms of energy conversion and storage,they have found broad use in buffering mechanical impacts,suppressing noise,photothermal conversion,electromagnetic shielding and absorption.They have also been used in electrochemical energy systems such as supercapacitors,secondary batteries,and electrocatalysis.By reviewing recent progress in structural design and new applications,we also discuss the problems these materials face,including scalable fabrication and precise pore structure control,and possible new applications. 展开更多
关键词 GRAPHENE 3D network SYNTHESIS Energy storage Energy conversion
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Microstructure modulation strategies from pitch molecules to derived carbon materials for electrochemical energy storage
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作者 MENG Chao ZHANG Yan +4 位作者 WANG Ning ZHENG Xue-qing KONG De-yu HU Han WU Ming-bo 《新型炭材料(中英文)》 北大核心 2025年第4期837-859,共23页
Pitch is a complex mixture of polycyclic aromatic hydrocarbons and their non-metal derivatives that has a high carbon content.Using pitch as a precursor for carbon materials in alkali metal ion(Li^(+)/Na^(+)/K^(+))bat... Pitch is a complex mixture of polycyclic aromatic hydrocarbons and their non-metal derivatives that has a high carbon content.Using pitch as a precursor for carbon materials in alkali metal ion(Li^(+)/Na^(+)/K^(+))batteries has become of great interest.However,its direct pyrolysis often leads to microstructures with a high orientation and small interlayer spacing due to uncontrolled liquid-phase carbonization,resulting in subpar electrochemical performance.It is therefore important to control the microstructures of pitch-derived carbon materials in order to improve their electrochemical properties.We evaluate the latest progress in the development of these materials using various microstructural engineering approaches,highlighting their use in metal-ion batteries and supercapacitors.The advantages and limitations of pitch molecules and their carbon derivatives are outlined,together with strategies for their modification in order to improve their properties for specific applications.Future research possibilities for structure optimization,scalable production,and waste pitch recycling are also considered. 展开更多
关键词 Pitch precursor Carbon materials MICROSTRUCTURE Modification strategies Electrochemical energy storage
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Hybrid fault tolerance in distributed in-memory storage systems
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作者 Zheng Gong Si Wu Yinlong Xu 《中国科学技术大学学报》 北大核心 2025年第1期59-68,58,I0002,共12页
An in-memory storage system provides submillisecond latency and improves the concurrency of user applications by caching data into memory from external storage.Fault tolerance of in-memory storage systems is essential... An in-memory storage system provides submillisecond latency and improves the concurrency of user applications by caching data into memory from external storage.Fault tolerance of in-memory storage systems is essential,as the loss of cached data requires access to data from external storage,which evidently increases the response latency.Typically,replication and erasure code(EC)are two fault-tolerant schemes that pose different trade-offs between access performance and storage usage.To help make the best performance and space trade-off,we design ElasticMem,a hybrid fault-tolerant distributed in-memory storage system that supports elastic redundancy transition to dynamically change the fault-tolerant scheme.ElasticMem exploits a novel EC-oriented replication(EOR)that carefully designs the data placement of replication according to the future data layout of EC to enhance the I/O efficiency of redundancy transition.ElasticMem solves the consistency problem caused by concurrent data accesses via a lightweight table-based scheme combined with data bypassing.It detects correlated read and write requests and serves subsequent read requests with local data.We implement a prototype that realizes ElasticMem based on Memcached.Experiments show that ElasticMem remarkably reduces the time of redundancy transition,the overall latency of correlated concurrent data accesses,and the latency of single data access among them. 展开更多
关键词 in-memory storage system hybrid fault tolerance replication erasure code
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Preparation and Modification of MXene Composites for Application in Electrochemical Energy Storage
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作者 Zhang-Hai You Ding-Ze Lu +5 位作者 Kiran Kumar Kondamareddy Wen-Ju Gu Peng-Fei Cheng Jing-Xuan Yang Rui Zheng Hong-Mei Wang 《电化学(中英文)》 北大核心 2025年第5期1-27,共27页
With the acceleration of advanced industrialization and urbanization,the environment is deteriorating rapidly,and non-renewable energy resources are depleted.The gradual advent of potential clean energy storage techno... With the acceleration of advanced industrialization and urbanization,the environment is deteriorating rapidly,and non-renewable energy resources are depleted.The gradual advent of potential clean energy storage technologies is particularly urgent.Electrochemical energy storage technologies have been widely used in multiple fields,especially supercapacitors and rechargeable batteries,as vital elements of storing renewable energy.In recent years,two-dimensional material MXene has shown great potential in energy and multiple application fields thanks to its excellent electrical properties,large specific surface area,and tunability.Based on the layered materials of MXene,researchers have successfully achieved the dual functions of energy storage and conversion by adjusting the surface terminals at the Fermi level.It is worth noting that compared with other two-dimensional materials,MXene has more active sites on the basal plane,showing excellent catalytic performance.In contrast,other two-dimensional materials have catalytic activity only at the edge sites.This article comprehensively overviews the synthesis process,structural characteristics,modification methods for MXene-based polymer materials,and their applications in electrochemical energy storage.It also briefly discusses the potential of MXene-polymer materials in electromagnetic shielding technology and sensors and looks forward to future research directions. 展开更多
关键词 MXene Preparation process Modification strategy Electrochemical energy storage
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Diamond related materials for energy storage and conversion applications
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作者 YU Si-yu WANG Xi-yan YANG Nian-jun 《新型炭材料(中英文)》 北大核心 2025年第4期973-992,共20页
Diamond combines many unique properties,including high stability,strong optical dispersion,excellent mechanical strength,and outstanding thermal conductivity.Its structure,surface groups,and electrical conductivity ar... Diamond combines many unique properties,including high stability,strong optical dispersion,excellent mechanical strength,and outstanding thermal conductivity.Its structure,surface groups,and electrical conductivity are also tunable,increasing its functional versatility.These make diamond and its related materials,such as its composites,highly promising for various applications in energy fields.This review summarizes recent advances and key achievements in energy storage and conversion,covering electrochemical energy storage(e.g.,batteries and supercapacitors),electrocatalytic energy conversion(e.g.,CO_(2)and nitrogen reduction reactions),and solar energy conversion(e.g.,photo-(electro)chemical CO_(2)and nitrogen reduction reactions,and solar cells).Current challenges and prospects related to the synthesis of diamond materials and the technologies for their energy applications are outlined and discussed. 展开更多
关键词 Diamond related materials Electrochemical energy storage Electrocatalytic energy conversion Solar energy conversion Future energy application directions
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Superstructured carbon materials:Progress and challenges in energy storage and conversion technologies
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作者 ZUO Ming-xue HU Xia +6 位作者 KONG De-bin WEI Xin-ru QIN Xin LV Wei YANG Quan-Hong KANG Fei-yu ZHI Lin-jie 《新型炭材料(中英文)》 北大核心 2025年第4期962-972,共11页
Carbon materials are a key component in energy storage and conversion devices and their microstructure plays a crucial role in determining device performance.However,traditional carbon materials are unable to meet the... Carbon materials are a key component in energy storage and conversion devices and their microstructure plays a crucial role in determining device performance.However,traditional carbon materials are unable to meet the requirements for applications in emerging fields such as renewable energy and electric vehicles due to limitations including a disordered structure and uncontrolled defects.With an aim of realizing devisable structures,adjustable functions,and performance breakthroughs,superstructured carbons is proposed and represent a category of carbon-based materials,characterized by precisely-built pores,networks,and interfaces.Superstructured carbons can overcome the limitations of traditional carbon materials and improve the performance of energy storage and conversion devices.We review the structure-activity relationships of superstructured carbons and recent research advances from three aspects including a precisely customized pore structure,a dense carbon network framework,and a multi-component highly coupled interface between the different components.Finally,we provide an outlook on the future development of and practical challenges in energy storage and conversion devices. 展开更多
关键词 Carbon material application Superstructured carbons Energy storage and conversion
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