6.000 0.17%

Research Hotspot

Click Each Keyword to Figure Out More

Alkyl Lamellar Helical Construction Order Nmr Microphase Degradable Defect I (co)polymerization Assembly Silicone Fast Uniform Partially Janus Density Dual Pathway Bicontinuous Precursor Relationship Emulsion Glassy Multiple Weight Comparison Poly(lactic Ordered Multiblock Poly(vinyl Modulus Rheological Content Simultaneous Controlling Precise Core Nanoparticle Pendant Crowding Different Polyester Material State Stability Determination Segregation Double Dendrimers Diagram Recovery Ordering Processing Reaction Determining Double-network Cluster Polyanion Tailorable Probe Responsive Level Silica Agent Viscoelasticity Application Polyimides Field Lyotropic Tailored Functionality Gap Oxide Microscopic Time Activated Extension Acrylate Molecularly H-bonding Acceptor Crystallinity Elastic Precision Emission Hierarchically Dot Composed Lamella Electrolyte Insight Polymerized Substrate Colloidal Rubber Rate Near Tacticity Polypropylene Large Cylindrical Polyethers Poly(acrylic Thermodynamics Rational Adhesive Covalent Clay Sorption Branching High-throughput Polyurethane Catalytic Polymerizable Homopolymers Initiator Composition Finite Catalyst-free Mass Functionalized Isoprene Cross-link High-performance Growth 3d Structure-property Showing Catalyzed Microgels Terpolymer Vapor Versatile Ultrathin Dendritic Utilizing Epoxides Luminescent Doe Remarkable Versus Loop Photopolymerization Oxide) Semicrystalline Gas Volume Thiophene Poly(3-hexylthiophene) Poly(arylene Electrostatic Nanostructures Introducing Pattern Biobased Parameter Modulation Low Straightforward Organocatalyzed Polybutadiene Thermoplastic Benzothiadiazole Gradient Non-isocyanate Transformation Accurate Polarized Peg Coacervate Stretchable Coefficient Reprocessable Ternary Graft Segment Tough Strain Plasticized Room-temperature Addition-fragmentation Smart Nonlinear Catalyst Alignment Dimension Neutral Long-chain Telechelic Poly(ionic Metal Substitution Internal Band Type Probing Oriented Correlation Metal-free Dendronized Topology Mixture Solid Liquid)s Characterizing Poly(epsilon-caprolactone) Origin Frustrated Poly(phenylene Polypeptide Upon Room Selenophene Deconvolution Utilization Microgel Bipolar Weak N-type Nanoporous Attraction Group-transfer Stabilization Nanotube Drive Polyethylene-based Charged Intrinsic Range Water-soluble Matrix Delayed Energy Within Heterogeneity Tandem Improving Carbosilane Heterogeneous Asymmetric Elevated Improve Conformational All-polymer Toughness Mapping Regenerated Mechanochemical Attractive Fluorinated Poly(n-isopropylacrylamide) Detection Co-polymer Region Collective Reduction Principle Polyrotaxanes Ether) Retardation Tapered Mono- Cooperative Quantitative Opening Unusual Damage Combined Methanol Well-entangled Miktoarm Ultralow Competitive Derived Why Scalable Azide-alkyne Symmetric - Two Collapse Coacervates Oxygen Investigation Densely Ph-responsive Enthalpy Photocatalyst Opportunity Diffusivity Plasticizer Initiation Sub-10 Pet-raft Affect Mechanically Wetting Single-molecule Entropy Epoxy-amine Carbamate Interplay Methacrylate Microstructural Nanosheets Enable Romp Ab Evidence Self-immolative Dna Mesoscopic Shell Aba Amine Additive Annealing Green Syndiotactic Oscillatory Polymorphism Monte Tertiary Uptake Pressure Series Produced Throughput Route Packing Styrene Coordination Lamella-forming Step Chemically Mechanic Ii Regioselective Importance Thermoreversible Scale Versatility Simple Rod Polysaccharide Point Enhance Thermoresponsiveness Obtained Two-step Bearing Orientational Enabled Universal Dispersity Nonequilibrium Organocatalysts Multichain Modified Host-guest Dispersed Progress Bimodal Limit Dopant-free Degrafting Soft Achieving Nanostructure Building Relation Metathesis Exponent Pentablock Crystallization-driven Terpolymerization Realistic B Thiolen Intrinsically Co-nonsolvency Macrocyclic Period Comonomer Melting Nanofibers Secondary Stereoregular Photophysical Driven Enables Thiourethane Depolymerization Photo-cross-linkable Unimolecular Supertough Perfluorinated Adhesion Chain-end Abc Pyridine Long First Autonomous Vinylidene Semiflexible Salt-doped Discrete Thermosensitive Position N Therapeutic Kinetically Fully Governs Terephthalate) Polyphenylenes Diffusive Nematic Lonomers Adsorption Tensile Gelation Toughen Stretch-induced Biodegradable Nanocrystals Stimuli-responsive Future Optimize Orthogonal Ladder-type Aromatic Click Degradation Methylcellulose Increased Acrylate-based Miniemulsion Upcycling Achiral Concept Macromonomer Mimic Development Better Polycarbonate Assembled Solute Reveals Near-infrared Various Fluorescent Caging Memory Degree Cyanoacrylates Ethylene Dioxide Thin-film Number End-capping Polar Boron Colloid Mode Unentangled Heat-resistant Hairy Sol-gel Recent Stiff Liquid-crystalline Second-generation Evaluation Fused Zwitterionic Epoxy Ferroelectric Flat Silica-filled Ionomers Investigating Partial Ii-i X-ray Polylactide Derivative Full Nanowires Polyolefins Presence Electron Nm Phenomenon Spectroscopy Oligomer Macromonomers Free-radical Diels-alder Hole-transporting Sodium Tool Dissolution

People also search for: Coordination Chemistry Reviews, Inorganic Chemistry Frontiers, Inorganic Chemistry, ChemCatChem, International Journal of Molecular Sciences, more.

Macromolecules - Journal Impact

The Journal Impact 2019-2020 of Macromolecules is 6.000, which is just updated in 2020. Compared with historical Journal Impact data, the Metric 2019 of Macromolecules dropped by 0.17% . The Journal Impact Quartile of Macromolecules is Q1. The Journal Impact of an academic journal is a scientometric Metric that reflects the yearly average number of citations that recent articles published in a given journal received. It is frequently used as a Metric for the relative importance of a journal within its field; journals with higher Journal Impact are often deemed to be more important than those with lower ones. The Journal Impact measures the average number of citations received in a particular year (2019) by papers published in the journal during the two preceding years (2017-2018). Note that 2019 Journal Impact are reported in 2020; they cannot be calculated until all of the 2019 publications have been processed by the indexing agency. In addition to the 2-year Journal Impact, the 3-year Journal Impact can provide further insights and factors into the impact of Macromolecules.

6.0 ~ 6.5


Macromolecules - Journal Impact Prediction System

100% scientists expect Macromolecules Journal Impact 2020 will be in the range of 6.0 ~ 6.5. Journal Impact Prediction System provides an open, transparent, and straightforward platform to help academic researchers Predict future Metric and performance through the wisdom of crowds. Journal Impact Prediction System displays the exact community-driven Metric without secret algorithms, hidden factors, or systematic delay.

Macromolecules Journal Impact Prediction System - Metric and Trend
  • Article Volume 2017 979
  • Article Volume 2016 995
  • Article Volume 2015 982
  • ISSN
  • 00249297, 15205835
  • Open Access
  • Publisher
  • American Chemical Society
  • Country/Region
  • United States
  • History
  • Categories
  • Inorganic Chemistry (Q1), Materials Chemistry (Q1), Organic Chemistry (Q1), Polymers and Plastics (Q1)

Macromolecules - ISSN

The ISSN of Macromolecules is 00249297, 15205835. An ISSN is an 8-digit code used to identify newspapers, journals, magazines and periodicals of all kinds and on all media–print and electronic.

Macromolecules - ISSN

Macromolecules - Subscription (non-OA) Journal

Macromolecules is a Subscription-based (non-OA) Journal. Publishers own the rights to the articles in their journals. Anyone who wants to read the articles should pay by individual or institution to access the articles. Anyone who wants to use the articles in any way must obtain permission from the publishers.

Macromolecules - Open Access

Macromolecules - Publisher

Macromolecules is published by American Chemical Society, which is located in the United States. The Publication History of Macromolecules covers 1968-ongoing.

Macromolecules - Publisher

Macromolecules - Categories

Macromolecules is a peer-reviewed scientific journal. The scope of Macromolecules covers Inorganic Chemistry (Q1), Materials Chemistry (Q1), Organic Chemistry (Q1), Polymers and Plastics (Q1).

Macromolecules - Categories

Macromolecules - Journal Factors

It is impossible to get a true picture of impact using a single Metric alone, so a basket of factors is needed to support informed decisions. In addition to Abbreviation, Acceptance Rate, Review Speed, Research Hotspot and Template, several advanced Journal Factors including Citescore, H-Index, Self-Citation Ratio, SJR (SCImago Journal Rank Indicator) and SNIP (Source Normalized Impact per Paper) can provide you comprehensive insights into the Macromolecules.

Macromolecules - Journal Metric