22.040 8.62%


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Chemistry Printed Controlled Simultaneously Solvent Exploiting Sphere Binder Alloy Induced Suppressing Boundary Holey Polycrystalline Direct Electrocatalytic Realize Nanoflakes Single Rapid Catalysis Size Nonflammable Electrocatalysts Metal-organic Growth Achieve Plating Enhance Engineered Asymmetric Fe Codoped Enhancing Metal-based Li-rich Junction Decorated Coating Incorporating Modified Imaging Array Binary Preparation Ordered Electronics N Si Foam Atom Localized Low Membrane Single-atom Wide Low-temperature Fully Inhibiting Nanosheet State Carrier Co2 Copper Nature Quantification Large-area Development Module Nanowires Double Machine Ruthenium Morphology Graphite Ultrafine Hole-transporting Sno2 Potential Controlling Oxidation Ink Cycle Origin Cathode-electrolyte Room Blended Cooling Transmission Tailored Block Homogeneous Interphase Ni-rich Nico2o4 Photoelectron Ca-ion Within Distortion Kinetics Cation-disordered Printing Heterogeneous Fundamental Partially Polysulfides Modification Photothermal Mo Complex Embedded Deposited Dual Nucleation Featuring Tuning Practical Polysulfide Stabilize Coupled Stabilizing Deep Critical Suppression Incorporation Space Support Palladium Derived Morphological Thermal Promising Anion Defect-rich General Silver Molybdenum Cu Doped Mose2 Process Na-ion Colloidal Strongly Cloth Vanadate Photocatalyst Characterization Bulk Titanium Printable Blend Selective Instability Dual-doped Electric Migration Covalent Construction Carbon-free Supercapacitor Nanomaterials Interplay Motif Energy-related Freestanding Splitting Route Collector V2o5 Sei Self-assembly Metallic Technology Chain Trap Accommodating Observation Composition Heteroatom Advance Cycling Optoelectronic Interaction Simple Twist Pbi2 Symmetric One-step Beyond Over Built-in Excellent Host Cspbi2br Extremely Antisolvent Ni Stress Higher Elucidating Versatile Mof-derived Long-life Suppressed Cr Ionic Optical Dispersed Visualization Mixed-cation Remarkable Versus Supported Few-layered Edge V Pathway Boride Thin Absorber Transformation Dipole Noble Capability Si-based Structurally Electrostatic Trend Challenge Emerging Pair Unraveling Prelithiation Mechanistic Mixing Making Biomass-derived Self-supported Constructing Spray Scattering Liquid Gradient Mediation Environment Mos2 Blue H-2 Nanocrystals Alkali Infrared Aerogel Length Tune Kesterite Concentrated Free-standing Atomically Potassium-ion Pseudocapacitive Fullerene Bandgap Exchange Mixed Discovery Bioinspired Deciphering Promoting Room-temperature Defective Trifunctional Smart Assembled Correlating Optimized Donor-acceptor Continuous Confinement Lifetime Planar Technique Tool Fabric Group Nanofibers Cspbi3 Vanadium Comprehensive Waste Cycle-life Reversibility Complete Triplet Photo-electrochemical Hysteresis Oxygen-rich Open Activation Nanowire Air Internal Encapsulated Oriented Mechanical Both Learning On-chip Tis2

Advanced Energy Materials - 影響因子

Advanced Energy Materials的2019年影響因子 為 22.040 (2020年最新數據)。 影響因子通過在前兩年(2017-2018)期刊上發表的論文總數計算特定年份(2019年)的平均引用次數。影響因子現已成為國際上通用的期刊評價指標,它不僅是一種測度期刊有用性和顯示度的指標,而且也是測度期刊的學術水平,乃至論文質量的重要指標。 與歷年影響因子數據相比,Advanced Energy Materials 2019年影響因子上升了 8.62% 。 2019-20年Advanced Energy Materials的最新影響因子分區 為 Q1。 除了Advanced Energy Materials的2年影響因子外,Advanced Energy Materials3年影響因子也提供給您進一步評估。

26.0 ~ 26.5


Advanced Energy Materials - 影響因子即時預測系統

50%的科學家預測Advanced Energy Materials 2020-21影響因子將在此 26.0 ~ 26.5範圍內。 影響因子即時預測系統 提供一個開放且透明的平台,通過群眾智慧及巨量資料幫助學術研究人員預測未來期刊的影響和表現。影響因子趨勢預測系統即時地真實呈現群眾巨量數據,沒有附加任何加密運算、隱藏因子或系統延遲。

Advanced Energy Materials Impact Factor Trend Forecasting System
  • ISSN
  • 16146832, 16146840
  • Open Access
  • 出版社
  • Wiley-VCH Verlag
  • 國家/地區
  • Germany
  • 出版歷史
  • 研究領域
  • Materials Science (miscellaneous) (Q1), Renewable Energy, Sustainability and the Environment (Q1)

Advanced Energy Materials - ISSN

Advanced Energy Materials 的 ISSN 是 16146832, 16146840。ISSN是一個8位數的代碼,用於識別各種報紙,期刊,雜誌和期刊以及所有媒體 - 包括印刷版和電子版。

Advanced Energy Materials - ISSN

Advanced Energy Materials - 傳統訂閱 (non-OA) 期刊

Advanced Energy Materials傳統訂閱 (non-OA) 期刊。出版商擁有其期刊中文章的版權。任何想要閱讀文章的人都應該由個人或機構支付費用來訪問這些文章。任何人想以任何方式使用這些文章都必須獲得出版商的許可。

Advanced Energy Materials - Open Access

Advanced Energy Materials - 出版社

Advanced Energy Materials的出版社是 Wiley-VCH Verlag (Germany), Advanced Energy Materials的出版歷史包含 - 2011-ongoing

Advanced Energy Materials - Publisher

Advanced Energy Materials - 研究領域

Advanced Energy Materials為標準同行評審期刊。同行評審(Peer review,在某些學術領域亦稱 Refereeing) 為一種審查程序,即一位作者的學術著作讓同一領域的其他專家學者來加以評審。Advanced Energy Materials主要以同行評審的方法來選擇與篩選所投送的稿件錄取與否。 Advanced Energy Materials的研究領域涵蓋以下類別: Materials Science (miscellaneous) (Q1), Renewable Energy, Sustainability and the Environment (Q1)

Advanced Energy Materials - Categories

Advanced Energy Materials - 期刊進階指標

事實上僅使用單一指標 - 影響因子 很難全面性地了解Advanced Energy Materials期刊影響力,因此需要更多指標提供您投稿文章的參考依據。學術加速器除了提供期刊標準縮寫期刊錄用-拒稿 比例期刊審稿速度期刊研究熱點期刊投稿模板, 一系列相關期刊重要指標包括 CitescoreH-IndexSelf-Citation RatioSJR (SCImago Journal Rank Indicator)SNIP (Source Normalized Impact per Paper) 讓您可以進一步評估 Advanced Energy Materials期刊影響力。

Advanced Energy Materials - Journal Metrics