SEI similarity on Li and Cu current collectors governs stripping uniformity, influencing dead Li formation and coulombic efficiency.

Aqueous zinc-ion batteries (AZIBs) have been regarded as promising candidates for large-scale energy storage. However, the poor reversibility of Zn electrodeposition at low current densities still remains a great challenge in developing practical AZIBs. In this work, a localized eutectic electrolyte (LEE) is proposed by introducing trioxane to a baseline eutectic electrolyte, 2.0 M Zn-(OTf)₂ in water/sulfolane (50:50 vol %), for reversible Zn anodes under challenging conditions (low N/P ratios and low current densities). Trioxane serves to disperse the aqueous eutectic domain and construct a solvation-sheath-repelled inner Helmholtz plane, thus regulating charge transfer kinetics to enable further suppression of electrolyte corrosion and improved Zn morphology. Zn||Zn_0.25V₂O₅·<i>n</i>H₂O full cells with a low N/P ratio (≤4) and a low current density of 100 mA cathode^-1 (corresponding to a 0.33 C rate) exhibit enhanced cycling stability and a prolonged lifespan (nearly 3 months) in the LEE.

Nitride solid-state electrolytes offer intrinsic stability with lithium metal and improved ionic conductivity. This review highlights advances in their design, synthesis, and application for enabling practical all-solid-state lithium metal batteries.

This case suggests that venovenous ECMO with individualized anticoagulation may serve as a bridge to definitive immunosuppression in fulminant AAV-associated DAH. Early cyclophosphamide administration timed to worsening organ involvement may help limit multi-organ injury and avert the need for renal replacement therapy.

This record contains the final n=28 mammal dataset (body mass, maximum lifespan, and the Pace-Standardized Lifespan proxy, PSL = LS × M^(-0.25)), R scripts to reproduce OLS/PGLS/ANOVA analyses, and the 100-tree posterior subset used to assess phylogenetic uncertainty. The 100-tree subset was sampled with set.seed(1) from the Upham et al. (2019) 10k node-dated DNA-only posterior phylogenies archived on Dryad (DOI: 10.5061/dryad.tb03d03).

This repository provides the complete data and code required to reproduce the analyses for the Biology Letters submission on mammalian pace-standardised lifespan (PSL) across 28 taxa (n = 28). Version note (v4)This is the fourth release of the replication package. Earlier versions (v1, v2, and v3) are superseded by v4. This update introduces a comprehensive README.txt to clarify nomenclature and ensures full alignment between internal data identifiers and the manuscript text. Please use v4 for all verification and reproducibility purposes. 1) Statistical analysis package (PSL_Analysis_v4.zip)- Contents: Core input data and R scripts for OLS and PGLS models evaluated across 100 posterior mammalian trees.- How to reproduce: Run source("run_all.R") in R, or execute Rscript run_all.R from the terminal.- Outputs: Results are written to the /results folder. Session information (including package versions) is saved to /docs/sessionInfo.txt.- Note: This package focuses on the core statistical outputs reported in the manuscript (e.g. slope, confidence interval, and R²) to ensure direct alignment with the text. 2) Figure generation package (PSL_Figure_v4.zip)- Contents: Python scripts (make_fig1.py–make_fig3.py), figure-specific Excel workbooks, and documentation for reproducibility.- How to reproduce (Windows): Double-click RUN_FIGURES_WINDOWS.bat.- Outputs: Figures are generated as Figure1.pdf, Figure2.pdf, and Figure3.pdf in the /figures directory.- Note: For internal consistency, PSL is labelled as “E” in the main workbook and “LEP” in the ANOVA workbook; these refer to the same values as the pace-standardised lifespan (PSL) reported in the manuscript.

DescriptionThis repository provides the complete data and code required to reproduce the analyses for the Biology Letters submission on mammalian pace-standardised lifespan (PSL) across 28 taxa (n = 28). Version note (v3)This is the third release of the replication package. Earlier versions (v1 and v2) are superseded by v3, which resolves minor path inconsistencies and ensures full compatibility between the scripts and the manuscript figures. Please use v3 for all verification and reproducibility purposes. 1) Statistical analysis package (PSL_Analysis_v3.zip) Contents: Core input data and R scripts for OLS and PGLS models evaluated across 100 posterior mammalian trees.How to reproduce: Run source("run_all.R") in R, or Rscript run_all.R from the terminal.Outputs: Results are written to the /results folder. Session information (including package versions) is saved to /docs/sessionInfo.txt.Note: This package focuses on the core statistical outputs reported in the manuscript (e.g. slope, confidence interval, and R²) to ensure direct alignment with the text. 2) Figure generation package (PSL_Figure_v3.zip) Contents: Python scripts (make_fig1.py–make_fig3.py), figure-specific Excel workbooks, and documentation for reproducibility.How to reproduce (Windows): Double-click RUN_FIGURES_WINDOWS.bat.Outputs: Figures are generated as Figure1.pdf, Figure2.pdf, and Figure3.pdf in the /figures directory.Note: For internal consistency, PSL is labelled as “E” in the main workbook and “LEP” in the ANOVA workbook; these are identical values.

DescriptionThis repository provides the complete data and code required to reproduce the analyses for the Biology Letters submission on mammalian pace-standardised lifespan (PSL) across 28 taxa (n = 28). Version note (v3)This is the third release of the replication package. Earlier versions (v1 and v2) are superseded by v3, which resolves minor path inconsistencies and ensures full compatibility between the scripts and the manuscript figures. Please use v3 for all verification and reproducibility purposes. 1) Statistical analysis package (PSL_Analysis_v3.zip) Contents: Core input data and R scripts for OLS and PGLS models evaluated across 100 posterior mammalian trees.How to reproduce: Run source("run_all.R") in R, or Rscript run_all.R from the terminal.Outputs: Results are written to the /results folder. Session information (including package versions) is saved to /docs/sessionInfo.txt.Note: This package focuses on the core statistical outputs reported in the manuscript (e.g. slope, confidence interval, and R²) to ensure direct alignment with the text. 2) Figure generation package (PSL_Figure_v3.zip) Contents: Python scripts (make_fig1.py–make_fig3.py), figure-specific Excel workbooks, and documentation for reproducibility.How to reproduce (Windows): Double-click RUN_FIGURES_WINDOWS.bat.Outputs: Figures are generated as Figure1.pdf, Figure2.pdf, and Figure3.pdf in the /figures directory.Note: For internal consistency, PSL is labelled as “E” in the main workbook and “LEP” in the ANOVA workbook; these are identical values.

This repository provides the complete data and code to reproduce the analyses for the Biology Letters submission on mammalian pace-standardized lifespan (PSL, n=28 taxa). - Zenodo_submission_package_PSL_n28_WITH_100trees.zip: Core statistical modeling package. Includes raw data, R scripts (OLS/PGLS), and 100 posterior mammalian trees for sensitivity analysis. - Zenodo_submission_bundle_PSL_n28_v2.zip: Figure generation package. Includes Python scripts (make_fig1-3.py), figure-specific Excel workbooks, and documentation for reproducibility.

SEI similarity on Li and Cu current collectors governs stripping uniformity, influencing dead Li formation and coulombic efficiency.

Aqueous zinc-ion batteries (AZIBs) have been regarded as promising candidates for large-scale energy storage. However, the poor reversibility of Zn electrodeposition at low current densities still remains a great challenge in developing practical AZIBs. In this work, a localized eutectic electrolyte (LEE) is proposed by introducing trioxane to a baseline eutectic electrolyte, 2.0 M Zn-(OTf)₂ in water/sulfolane (50:50 vol %), for reversible Zn anodes under challenging conditions (low N/P ratios and low current densities). Trioxane serves to disperse the aqueous eutectic domain and construct a solvation-sheath-repelled inner Helmholtz plane, thus regulating charge transfer kinetics to enable further suppression of electrolyte corrosion and improved Zn morphology. Zn||Zn_0.25V₂O₅·<i>n</i>H₂O full cells with a low N/P ratio (≤4) and a low current density of 100 mA cathode^-1 (corresponding to a 0.33 C rate) exhibit enhanced cycling stability and a prolonged lifespan (nearly 3 months) in the LEE.