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PROGRESS IN MATERIALS SCIENCE

PROGRESS IN MATERIALS SCIENCE

PROG MATER SCI
影响因子:40
是否综述期刊:
是否预警:不在预警名单内
是否OA:
出版国家/地区:ENGLAND
出版社:Elsevier Ltd
发刊时间:1961
发刊频率:Bimonthly
收录数据库:SCIE/Scopus收录
ISSN:0079-6425

期刊介绍

Progress in Materials Science publishes authoritative and critical reviews of recent advances in the science of materials and their exploitation in engineering and other applications. Authors of reviews in Progress in Materials Science are active leaders in materials science and have a strong scientific track record in the field of the review. Emphasis is placed on the fundamental aspects of the subject, particularly those concerning microstructure and nanostructure and their relationship to properties (mechanical, chemical, electrical, magnetic, optical or biomedical) including the atomistic and electronic nature of condensed phases. Also desirable subject matters are the thermodynamics, kinetics, mechanisms and modelling of processes which occur within solids, liquids and other condensed phases; experiments and models which help in understanding the macroscopic properties of materials in terms of microscopic mechanisms; and work which advances the understanding of the use of materials in engineering, healthcare and other applications. Materials of interest are metallic, ceramic, polymeric, biological, medical and composite in all forms. Manuscripts are generally of greater length than those found in journals specialising in research papers.
《材料科学进展》发表了材料科学及其在工程和其他应用中的开发的最新进展的权威和批评性评论。《材料科学进展》综述的作者是材料科学领域的活跃领导者,在该综述领域有着良好的科学记录。重点放在该学科的基本方面,特别是那些涉及微观结构和纳米结构及其与性质(机械、化学、电、磁、光学或生物医学)的关系,包括凝聚相的原子和电子性质。同样理想的主题是热力学、动力学、机理和在固体、液体和其它凝聚相中发生的过程的建模;有助于从微观机制角度理解材料宏观特性的实验和模型;和其他应用中材料使用的理解。感兴趣的材料是所有形式的金属、陶瓷、聚合物、生物、医学和复合材料。手稿通常比那些专门发表研究论文的期刊要长。
年发文量 126
国人发稿量 61.08
国人发文占比 0.48%
自引率 -
平均录取率0
平均审稿周期 约稿?周期不定平均23.9周
版面费 US$5360
偏重研究方向 工程技术-材料科学:综合
期刊官网 http://www.journals.elsevier.com/progress-in-materials-science/
投稿链接 https://www.editorialmanager.com/PMS

期刊高被引文献

Perovskite lead-free dielectrics for energy storage applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.12.005
Mechanical properties of high-entropy alloys with emphasis on face-centered cubic alloys
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.12.003
Structural heterogeneities and mechanical behavior of amorphous alloys
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.04.005
3D printing of Aluminium alloys: Additive Manufacturing of Aluminium alloys using selective laser melting
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.100578
High-k polymer nanocomposites with 1D filler for dielectric and energy storage applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.10.003
Emerging natural and tailored materials for uranium-contaminated water treatment and environmental remediation
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.01.005
Particle-reinforced metal matrix nanocomposites fabricated by selective laser melting: A state of the art review
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.04.006
Recent advances in carbon-based polymer nanocomposites for electromagnetic interference shielding
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.02.003
Recent progress on graphene-analogous 2D nanomaterials: Properties, modeling and applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.09.004
Thermal conductivity of 2D nano-structured boron nitride (BN) and its composites with polymers
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.10.002
Electrophoretic deposition of chitosan-based composite coatings for biomedical applications: A review
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.01.001
Nanomaterials as photothermal therapeutic agents.
来源期刊:Progress in materials scienceDOI:10.1016/j.pmatsci.2018.07.005
Substantial breakthroughs on function-led design of advanced materials used in mixed matrix membranes (MMMs): A new horizon for efficient CO2 separation
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.11.002
Fe-based bulk metallic glasses: Glass formation, fabrication, properties and applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.01.003
A review of catalytic performance of metallic glasses in wastewater treatment: Recent progress and prospects
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.100576
Flexoelectricity in solids: Progress, challenges, and perspectives
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.05.003
Icephobic materials: Fundamentals, performance evaluation, and applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.03.004
Dynamic relaxations and relaxation-property relationships in metallic glasses
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.03.006
Metal–organic framework membranes: Production, modification, and applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.09.003
Protective polymeric films for industrial substrates: A critical review on past and recent applications with conducting polymers and polymer composites/nanocomposites
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.04.002
Flax (Linum usitatissimum L.) fibre reinforced polymer composite materials: A review on preparation, properties and prospects
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.12.004
Significance of stacking fault energy in bulk nanostructured materials: Insights from Cu and its binary alloys as model systems
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.11.001
Cobalt oxide-based nanoarchitectures for electrochemical energy applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.03.001
Production of large-area 2D materials for high-performance photodetectors by pulsed-laser deposition
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.100573
Earth-abundant transition metal and metal oxide nanomaterials: Synthesis and electrochemical applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.100574
Current trends, challenges, and perspectives of anti-fogging technology: Surface and material design, fabrication strategies, and beyond
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.09.001
Redox-electrolytes for non-flow electrochemical energy storage: A critical review and best practice
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.10.005
Biomass derived hierarchical porous carbon materials as oxygen reduction reaction electrocatalysts in fuel cells
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.12.002
Recent progress in fundamental understanding of halide perovskite semiconductors
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.100580
One-dimensional SiC nanostructures: Designed growth, properties, and applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.04.004
Trap-controlled mechanoluminescent materials
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.02.001
Multiple and two-way reversible shape memory polymers: Design strategies and applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.100572
Modular Fabrication of Intelligent Material-Tissue Interfaces for Bioinspired and Biomimetic Devices.
来源期刊:Progress in materials scienceDOI:10.1016/J.PMATSCI.2019.100589
High temperature materials for heavy duty diesel engines: Historical and future trends
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.10.004
Dendrimer-entrapped gold nanoparticles as promising nanocarriers for anticancer therapeutics and imaging
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.03.003
Iron and manganese based magnetocaloric materials for near room temperature thermal management.
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.09.005
Structural architectures with toughening mechanisms in Nature: A review of the materials science of Type-I collagenous materials
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.01.002
A review of biomimetic surface functionalization for bone-integrating orthopedic implants: Mechanisms, current approaches, and future directions
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.100588
Nanocalorimetry: Door opened for in situ material characterization under extreme non-equilibrium conditions
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.04.001
Recent developments in the conservation of materials properties of historical wood
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.12.001
Kinetics of interaction of impurity interstitials with dislocations revisited
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.10.001
Nanoindentation/scratching at finite temperatures: Insights from atomistic-based modeling
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2018.09.002
来源期刊:DOI:
Ascendant bioinspired antireflective materials: Opportunities and challenges coexist
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.01.004
Extraterrestrial construction materials
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.100577
Mechanical properties characterization of two-dimensional materials via nanoindentation experiments
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.03.002
Bioprocess-inspired fabrication of materials with new structures and functions
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.05.004
Biopolymer@Metal-Organic Framework Hybrid Materials: A Critical Survey
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.100579
Biomaterials used in stem cell therapy for spinal cord injury
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.02.002
Two-/multi-wavelength light excitation effects in optical materials: From fundamentals to applications
来源期刊:Progress in Materials ScienceDOI:10.1016/J.PMATSCI.2019.05.001

质量指标占比

研究类文章占比 OA被引用占比 撤稿占比 出版后修正文章占比
0.00%19.62%--

相关指数

影响因子
影响因子
年发文量
自引率
Cite Score

预警情况

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时间 预警情况
2025年03月发布的2025版不在预警名单中
2024年02月发布的2024版不在预警名单中
2023年01月发布的2023版不在预警名单中
2021年12月发布的2021版不在预警名单中
2020年12月发布的2020版不在预警名单中
*来源:中科院《 国际期刊预警名单》

JCR分区

WOS分区等级:Q1区
版本 按学科 分区
WOS期刊SCI分区
WOS期刊SCI分区
WOS期刊SCI分区是指SCI官方(Web of Science)为每个学科内的期刊按照IF数值排 序,将期刊按照四等分的方法划分的Q1-Q4等级,Q1代表质量最高,即常说的1区期刊。
(2024-2025年最新版)
MATERIALS SCIENCE, MULTIDISCIPLINARY
Q1

中科院分区

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版本 大类学科 小类学科 Top期刊 综述期刊
2025年3月最新升级版
材料科学1区
MATERIALS SCIENCE, MULTIDISCIPLINARY 材料科学:综合
1区
2023年12月升级版
材料科学1区
MATERIALS SCIENCE, MULTIDISCIPLINARY 材料科学:综合
1区
2022年12月旧的升级版
材料科学1区
MATERIALS SCIENCE, MULTIDISCIPLINARY 材料科学:综合
1区