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The Journal of Physical Chemistry Letters

The Journal of Physical Chemistry Letters is a prestigious scientific journal that publishes cutting-edge research in the field of physical chemistry. It features concise and impactful letters that highlight significant advances in areas such as chemical physics, materials science, nanoscience, and spectroscopy. With a focus on rapid dissemination of groundbreaking findings, this journal serves as a platform for scientists to share their latest discoveries and contribute to the advancement of physical chemistry.
Details
Abbr. J Phys Chem Lett
Publisher American Chemical Society
Start 2010
End Continuing
Frequency Semimonthly
e-ISSN 1948-7185
Country United States
Language English
Specialty Chemistry
Metrics
h-index / Ranks: 353 252
SJR / Ranks: 1781 1586
CiteScore / Ranks: 1542 9.70
JIF / Ranks: 1231 5.7
Recent Articles
1.
Intrafacet Charge Separation toward Efficient Overall Water Splitting on SrTiO Single Crystal Photocatalysts
Luo Y, Ni C, Zhao J, Cui J, Zhang J, Zhu Q, et al.
J Phys Chem Lett . 2025 Mar; :2981-2986. PMID: 40088176
Facet engineering of photocatalytic particles has been proven to be effective in enhancing charge separation efficiency, particularly via interfacet built-in electric field, thus improving photocatalytic performance. However, whether charge separation...
2.
Impact of Hexagonal Boron Nitride Encapsulation on the Photophysical Dynamics of MAPbI Perovskite Crystals
Yang Y, Chen R, Yang M, Xi L, Chen Z, Yang Z, et al.
J Phys Chem Lett . 2025 Mar; :2972-2980. PMID: 40088166
Metal halide perovskites are known to suffer from instability due to their high sensitivity to external stimuli. Although encapsulation can considerably improve their stability, the impact of encapsulation on the...
3.
Atomistic Characterization of Confined Bulk and Bennett Plasmons in Metallic Nanoparticles as Probed by Penetrating Electrons
Candelas B, Urbieta M, Babaze A, Ogando E, Borisov A, Zabala N, et al.
J Phys Chem Lett . 2025 Mar; :2965-2971. PMID: 40086451
Despite the experimental observation of confined bulk plasmons (CBPs) in metallic nanostructures using electron energy-loss spectroscopy (EELS), there is still a limited theoretical understanding of their resonance structure when they...
4.
Mechanistic Insights into the Reactive Uptake of Bromine Nitrate at the Air-Water Interface: Interplay between Halogen Bonding and Solvation
Fang Y, Yuan C, Wang S, Zhu C, Fang W
J Phys Chem Lett . 2025 Mar; :2957-2964. PMID: 40084981
The reactive uptake of bromine nitrate (BrONO) into aqueous aerosols is a pivotal process in atmospheric bromine chemistry. BrONO forms halogen bonds with adjacent water molecules, disrupting hydrogen-bond networks and...
5.
Combining Multiple-Element Doping of LiCoO and Bilayer Electrolytes for 4.6 V High-Voltage All-Solid-State Lithium Batteries
Lu G, Lv J, Wu X, Jiang Y, Shen M, Hu B
J Phys Chem Lett . 2025 Mar; :2950-2956. PMID: 40084747
The halide electrolyte LiInCl has been proposed to function as a barrier layer between LiCoO and solid electrolytes LiPSCl, aimed at mitigating interfacial issues. Here we reveal that the employment...
6.
Pincer-Ligand-Stabilized Group 10 Metal Nanoclusters: Chirality and Boat-Chair Structural Transformation
Zhao Y, Li H, Yao M, Tao C, Wan Q, Tao Y, et al.
J Phys Chem Lett . 2025 Mar; :2942-2949. PMID: 40082257
Atomically precise metal nanoclusters bridge the gap between metal atoms and metal nanoparticles, providing an ideal platform for correlating the macroscopic properties of metal nanoparticles to their microstructures. In comparison...
7.
Chemifriction and Superlubricity: Friends or Foes?
Ying P, Gao X, Natan A, Urbakh M, Hod O
J Phys Chem Lett . 2025 Mar; :2934-2941. PMID: 40080132
The mechanisms underlying chemifriction (the contribution of interfacial bonding to friction) in defected twisted graphene interfaces are revealed using fully atomistic molecular dynamics simulations based on machine-learning potentials. This involves...
8.
Can Iron Be Embedded between Zigzag Mo Chains of the 1T'-MoTe Monolayer To Induce Magnetism?: A First-Principles Study
Acharya D, Shakir R, Karthikeyan J
J Phys Chem Lett . 2025 Mar; :2927-2933. PMID: 40079620
Molybdenum dichalcogenides are remarkable two-dimensional materials with promising applications in electronics, optoelectronics, and energy storage. Modifying a synthesized MoTe layer by embedding extra metal atoms into lattice voids induces novel...
9.
Why Antiholins? Thermodynamic and Kinetic Arguments to Explain the Robustness of Bacteriophage Cell Lysis
Mondal A, Kolomeisky A
J Phys Chem Lett . 2025 Mar; :2920-2926. PMID: 40071529
Cell lysis is one of the most common biological processes in which viruses infect and destroy bacterial cells. It is accomplished by viruses stimulating cell hosts to produce holin proteins...
10.
Imaging Aspect Ratio-Dependent Anisotropic Conversion of Bismuth-Based Metal-Organic Frameworks into Bismuth Oxides
Ye W, Ye G, Ning Q, Wu Z, Wang Q, He Y
J Phys Chem Lett . 2025 Mar; :2914-2919. PMID: 40069942
Metal-organic frameworks (MOFs) have emerged as promising templates and precursors that can be converted to a series of functional materials. Probing the dynamic conversion processes within individual MOF crystal particles...