Research Highlights

  • Understanding fluorine-free electrolytes via small-angle X-ray scattering

    We compare the solvation phenomenon of sodium tetraphenylborate (NaBPh4) salt dissolved in organic solvents of propylene carbonate (PC), 1,2-dimethoxyethane (DME), acetonitrile (ACN) and tetrahydrofuran (THF) by SAXS/WAXS measurement and MD simulation. Read More

  • Navigating the Minefield of Battery Literature

    This is an invited perspective aiming to help researchers new to the field of battery research to circumvent certain recurring misconceptions and inaccuracies in the current battery literature. It covers the electrolyte ideality and practical situation in batteries, the difficulty in accurately determining ion transference … Read More

  • Quantifying Lithium Ion Exchange in Solid Electrolyte Interphase (SEI) on Graphite Anode Surfaces

    By using Li isotopic labelling of SEIs and electrolytes followed by time-of-flight secondary-ion mass spectroscopy and solid-state NMR analyses, we found that the majority of Li+ “immobilized” in the chemical ingredients were exchanged after 1 SEI formation cycle. Ion exchange by diffusion based on concentration gradient without applied potential also occurred simultaneously. Read More

  • A Sobering Examination of the Feasibility of Aqueous Aluminum Batteries

    We revealed the first compelling evidence for a dynamic octahedral solvation structure around Al3+ dominated by labile water and OH-, without Al-OTf contact ion pairs, at high salt concentrations. High proton activity is observed in transport and electrochemical measurements which relates well with the proposed solvation environment. Read More

  • Ion Migration Mechanisms in the Sodium Sulfide Solid Electrolyte Na3-xSb1-xWxS4

    The atomic-scale mechanisms that underlie the exceptionally high ionic conductivity of Na3-xSb1-xWxS4 are elucidated. The conductivity is well explained by a combination of vacancy-related effects and a strong overlap of cation vibrational modes with anion librations. Read More

  • Ammonium enables reversible aqueous Zn battery chemistries by tailoring the interphase

    As a continued effort to make Zn metal anode reversible at lower cost, researchers at ARL explored a new supporting salt based on ammonium salt to alter the interfacial structure and interphasial chemistries. The salt was synthesized at ARL and much cheaper than the phosphonium … Read More

  • Effect of Solvent Motion on Ion Transport in Electrolytes

    Typically, the solvent is assumed to be immobile in a polarized electrolyte. However, recent JCESR measurements show non-zero solvent velocity. This article proposes a continuum theory to predict such solvent motion and its influence on other electrolyte fields. Read More

  • Facile Electrochemical Mg-Ion Transport in a Defect-Free Spinel Oxide

    Inversion-free spinel MgCr1.5Mn0.5O4 was successfully synthesized. The tailored spinel showed reversible (de)intercalation of Mg2+ at high redox potentials. It was found that the overpotentials and, thus, overall hysteresis was reduced when the inversion ratio in the spinel lattice was minimized. The experimental evidence emphasizes the influence of structural defects, in this case inversion, on electrochemical Mg2+ activity and provides a design rule toward a building functional Mg cathode for a high-energy Mg-ion battery. Read More

  • Limiting Current in Single-Ion-Conducting and Conventional Block Copolymer Electrolytes

    The performance of an electrolyte in a battery is determined by the limiting current – the maximum allowable current before detrimental irreversible side-reactions take over. We have developed a methodology for determining limiting current in electrolytes with mobile cations and anions (conventional liquid electrolytes) and electrolytes with only one mobile ion (single-ion conductors such as inorganic ceramics and glasses). Read More

  • From the synthesis vial to the full cell: Electrochemical methods for characterizing active materials for redox flow batteries

    We describe foundational electrochemical methods in the context of redox flow batteries, discussing proper experimental methodology, data interpretation, and limitations for evaluating key properties that translate to device performance. Read More

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  • JCESR Spotlight: Bob Jin Kwon, A Postdoc with Passion and Perseverance

    Argonne recognizes Kwon’s contributions to battery science with the Postdoctoral Performance Award. Article authored by: Michael Matz, Argonne Associate Bob Jin Kwon likes a good challenge, particularly when it comes to developing completely new kinds of batteries. “Developing new battery technologies is very challenging,” said … Read More

  • JCESR Spotlight: Lily Robertson Recognized for Her Contributions to Battery Research

    Argonne’s Postdoctoral Performance Award recognizes scientific achievements, leadership, and collaboration. Article authored by: Michael Matz, Argonne Associate Since her early days growing up in the Pacific Northwest, Lily Robertson has always wanted to help make the world a better place. “For as … Read More

  • Understanding fluorine-free electrolytes via small-angle X-ray scattering

    We compare the solvation phenomenon of sodium tetraphenylborate (NaBPh4) salt dissolved in organic solvents of propylene carbonate (PC), 1,2-dimethoxyethane (DME), acetonitrile (ACN) and tetrahydrofuran (THF) by SAXS/WAXS measurement and MD simulation. Read More

  • Navigating the Minefield of Battery Literature

    This is an invited perspective aiming to help researchers new to the field of battery research to circumvent certain recurring misconceptions and inaccuracies in the current battery literature. It covers the electrolyte ideality and practical situation in batteries, the difficulty in accurately determining ion transference … Read More

  • Quantifying Lithium Ion Exchange in Solid Electrolyte Interphase (SEI) on Graphite Anode Surfaces

    By using Li isotopic labelling of SEIs and electrolytes followed by time-of-flight secondary-ion mass spectroscopy and solid-state NMR analyses, we found that the majority of Li+ “immobilized” in the chemical ingredients were exchanged after 1 SEI formation cycle. Ion exchange by diffusion based on concentration … Read More