7.330 16.13%

Research Hotspot

Click Each Keyword to Figure Out More

Diode Exchange Gas Electrode Compound Electron-hole Bulk Contact Motion Improved Hydration Dimer Topological Radical Active Anomalous Anion Phosphorescence Intramolecular Loss Functional Reactivity Reveal Beyond Epitaxial Plasmon Phosphorene Soft Ab Strongly High-performance Ice Resonance Trapping Vacancy Metal-organic Laser Functionalization Revealed Temperature-dependent Enabled Edge Red Ground-state Atomic Nanocrystal Cesium Many-body Nonadiabatic Do Layer Group Accuracy Stimulated Bright Singlet Redox Heterogeneity Nucleation Controlling Decomposition Conductivity Chiral Efficiency Plasmonic Membrane Fast Long-lived Field Size Iodide Circular Near-infrared One-dimensional Multiple Pressure-induced Der Electrostatic Zno Van Folding Biexciton Point Probe Porphyrin Mn-doped Rule Catalyst Identification Detection Switch Nanotube Volume Intermolecular Two-photon Fission Aerosol Monitoring Three-dimensional Photoelectron Energetic Nanoparticle Oh Characterization Coordination Drive Change Elucidating High-efficiency Liquid-liquid Kinetics Assembly Lithium Photocurrent Effective Enhancing Base Salt Activation Novel Landscape Impact Modulation Identifying Due Visualization Ultrathin Reactive Tracking Tio2 Pt Cdse Physical Channel Delocalization Ruddlesden-popper Amyloid Initio Heterojunction Spectroscopic Search Tetragonal Voltage Hydrated Simple Ternary Lipid Size-dependent Strategy Hydrophobic Droplet Peptide Coalescence Conical Mixture Blue Computational Suppresses Alignment First-principles All-inorganic Determining Porous Near Luminescence Nodal Importance Polarons Janus Low-dimensional Dielectric Ordering Orbital Acceptor Nonlinear Geometry Suppression Distribution Deep Sampling Intelligence Level Symmetry Dipole Sum-frequency Wo3 Cooling Vibronic Fingerprint Derivative Real-time Excitonic Charge-transfer Coexistence Mutual Delayed Electrical Localized Bridge Phonons Sensitization Hexagonal Production Concentration Content Ammonia Modification Lasing Nanoconfinement Dark Boundary Nanosheets Rotational Bilayer Pd Fluorinated Mechanical Lead-free Crowded High-resolution Selectivity General Modulating Gallium Polarized Feature Facilitate Stacking More Self-trapped Method Chloride Confinement Zinc Potassium Surfactant Bound Scale Partial Controlled Collision Configuration Data-driven Enhances Nonequilibrium Crystallographic Gate Grain Upconversion (x Conversion Room Physic What Nm Ch3nh3pbi3 Binary Superconductivity Connection Neural Few-layer Quenching Fluid Gain Monte Case Theoretical Simulation Entanglement Localization Coulomb Amplified Unique Driving Au(111) Pressure Presence Rhodopsin Classical Microscopy Diffusivity Tin Single-crystalline Tunneling High-temperature Bismuth Fundamental Order Orientational Upon Electroluminescence Block Multidimensional Chemistry Charged Observed Platinum Induces Coefficient Long Lateral Fully Femtosecond Upper Transition-metal Cold Conformation Agent Domain Action Pore Photosynthetic Without Suppressed Dual Phosphorus Rotation Enables Battery Data Valence Broad-band Diagram Charge-carrier Silver Differential Frequency Multilayer Description Hydride Boron Blinking Excess C Not Calculation Expansion Deposition Mechanistic Vertical Predicting Affect Carbonate Co2 Linear Waals Ferroelectric Coulombic Emissive Weak Arbitrary White Asymmetry Gas-phase They Polarizable Electrically Nuclear-electronic Biomimetic Probed (m Pump-probe Semimetals Intersystem Fapbi(3) Annihilation Weakly Nanoclusters Ionized Spinning Cavity Promotes First-order Pyramid Strength 5 Photochemical Splittings Internal Reduced Photodetectors Clustering Investigate Hydrogen-transfer Environment V Open Location Nonvolatile Ws2 Generalized Heterostructures High- Cavitation Intensity Process Spin-orbit Building Preparation Junction Ensemble Low-frequency Crowd Fine Halogen Auxetic All-atom Superlubricity Tetracene Giant Passivation Intersection Chirality Combined Hybridization Conductance Nonphotochemical Hydrate Technique Condition Coarse-grained Core-shell Sensitivity Circularly Cryogenic Nanowires Phosphorescent Disulfide Accelerated Isotope Microsolvated Isomerization Silicon Moment Nondynamic Harvesting State-to-state Aging Incoherent Sno2 Enabling Isolated Orthorhombic Synergistic Spin-crossover Improvement Zero-dimensional Donor-acceptor Stokes Loading Boosted Black Nanoconfined Kasha's Breakdown Specific Ionization Correction Reducing Secondary Outstanding Simulating Exchange-correlation Scaling Nanocubes Existence Photoisomerization Mediated Photothermal Applied Smallest Photonic Mesoscale Aromaticity Bodipy Convolutional Absorber Luminescent Tolerance Constructing Across Single-layer Visible Management Decay Assist Anisotropy Universal Electron-nuclear Au Homogeneous Nucleotide Modeling Aromatic Splitting Close Improve Precise Friction Hierarchical Sulfide Ring Time- Allosteric Hopping One-step Reactor Wse2 Backbone Alkaline Photocatalysis Forster Passivated Amorphous Alkali Protonated Reversible Electron-phonon Explosion Negative Thermodynamics Photon Inorganic Reaxff Fusion Longitudinal Variational Photochromic Balanced Artificial Slow Dimension Green's Nanobubbles Full Neutron Laser-induced Fluctuation Melting Microstructures Nonradiative Sequence Inclusion Synthetic Threshold Multistate Mapbbr(3) Morphology Promoting Phosphide Medium Determine Application Bending Solvatochromic Phospholipid Photocatalysts P-n Unveiling Second Scanning Have P-type Reshaping Physisorption Manipulation Field-induced Mobility Reference Wurtzite Coherence Stark Metallic Forming Cause Resolved Unravelling Metastable Cobalt Aggregate Regulating Fermi Embedded Behind Human Entropy Line Crossing Multiscale Nucleus Ideal Interacting Photophysical Cooperative Vibration Protect Flexible Stabilizing Boosting Grown Equilibrium Benzene Magnetism Peroxy Promising Single-crystal Dissipation Encapsulated Decoupled Photoelectrochemical Ligand-mediated Weyl Metal-free Guest Nitride Chromophore Thermodynamic Vapor-deposited Critical Elusive Magic-size Obtained Conjugation Exotic Spectroscopically Ferromagnetism Pyrene Oligomers Dispersion Noncovalent Strain Choice 10 Product Electron-driven In-plane Formamidinium Diffraction Guanidinium S Intermediate Photodynamics Bimetallic Subnanometer Plant Light-harvesting Breaking Responsible Rapid Representation Methyl Rearrangement Barrier Vapor Perturbation Specie Plasma Capturing Dichroism Microsecond Hidden Chalcogenides Inse Determines Event Principle Magnetite Predict P Third-order Much Aggregation Diversity Nonstoichiometric Atomically Photocatalytic Normal Quantitative Doping-induced Polariton Wire Nanothreads Descriptor Liquid-like Twisted Composition Air Dominates Plasmon-enhanced Solid-state Sensitive Supramolecular Shape Thiophene Collective Well Realization Cross Disordered Form Memory Guanine Low-temperature Retinal Organic-inorganic Li Trapped Built Significantly On-the-fly Mosse Limit Decoupling Facet Spatially Trap Protein-protein Break Making Polycyclic Self-powered Chemisorption Discovery Spatial Achieving Terahertz Device Cd Release Error Nanoplatelets Photodetector Tio2(110) Irradiation Surface-enhanced H-2 Dirac Both Covalent Discharge Dramatically Monitored Carlo Sum Detail Mxenes Packing Host Levitated P3ht Striking Conduction Ph Embedding Kinetic Made Relativistic Cyanine Constant Key Decreasing Regulate Magic Iron Planar Photochemistry Drug Low-energy Determination Green Supercritical C-13 Self-assembly Photoanodes Multiconfiguration Realizing Quantification Nanoribbon Trajectory Ch4 Fine-tuning Antifreeze Center Simplest

Journal of Physical Chemistry Letters - Journal Impact

The Journal Impact 2019-2020 of Journal of Physical Chemistry Letters is 7.330, which is just updated in 2020. Compared with historical Journal Impact data, the Factor 2019 of Journal of Physical Chemistry Letters dropped by 16.13% . The Journal Impact Quartile of Journal of Physical Chemistry Letters is Q1. The Journal Impact of an academic journal is a scientometric factor that reflects the yearly average number of citations that recent articles published in a given journal received. It is frequently used as a factor 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 Journal of Physical Chemistry Letters.

8.0 ~ 8.5


Journal of Physical Chemistry Letters - Journal Impact Prediction System

40% scientists expect Journal of Physical Chemistry Letters Journal Impact 2020 will be in the range of 8.0 ~ 8.5. Journal Impact Prediction System provides an open, transparent, and straightforward platform to help academic researchers Predict future factor and performance through the wisdom of crowds. Journal Impact Prediction System displays the exact community-driven factor without secret algorithms, hidden factors, or systematic delay.

Journal of Physical Chemistry Letters Journal Impact Prediction System - Factor and Trend
  • Article Volume 2017 973
  • Article Volume 2016 842
  • Article Volume 2015 850
  • ISSN
  • 19487185
  • Open Access
  • Publisher
  • American Chemical Society
  • Country/Region
  • United States
  • History
  • Categories
  • Materials Science (miscellaneous) (Q1), Nanoscience and Nanotechnology (Q1), Physical and Theoretical Chemistry (Q1)

Journal of Physical Chemistry Letters - ISSN

The ISSN of Journal of Physical Chemistry Letters is 19487185. 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.

Journal of Physical Chemistry Letters - ISSN

Journal of Physical Chemistry Letters - Subscription (non-OA) Journal

Journal of Physical Chemistry Letters 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.

Journal of Physical Chemistry Letters - Open Access

Journal of Physical Chemistry Letters - Publisher

Journal of Physical Chemistry Letters is published by American Chemical Society, which is located in the United States. The Publication History of Journal of Physical Chemistry Letters covers 2010-ongoing.

Journal of Physical Chemistry Letters - Publisher

Journal of Physical Chemistry Letters - Categories

Journal of Physical Chemistry Letters is a peer-reviewed scientific journal. The scope of Journal of Physical Chemistry Letters covers Materials Science (miscellaneous) (Q1), Nanoscience and Nanotechnology (Q1), Physical and Theoretical Chemistry (Q1).

Journal of Physical Chemistry Letters - Categories

Journal of Physical Chemistry Letters - Journal Factors

It is impossible to get a true picture of impact using a single factor 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 Journal of Physical Chemistry Letters.

Journal of Physical Chemistry Letters - Journal Metrics

Journal Ranking