How to Control the Discharge Product in Sodium-Oxygen Batteries: Proposing New Pathways for Sodium Peroxide Formation

New Insights into the Instability of Discharge Products in Na–O2 Batteries

(2016) Imanol Landa-Medrano et al.   ACS Applied Materials & Interfaces

How To Improve Capacity and Cycling Stability for Next Generation Li–O2 Batteries: Approach with a Solid Electrolyte and Elevated Redox Mediator Concentrations

(2016) Benjamin J. Bergner et al.   ACS Applied Materials & Interfaces

Solvent-Mediated Control of the Electrochemical Discharge Products of Non-Aqueous Sodium-Oxygen Electrochemistry

(2016) Iain M. Aldous et al.   ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

One- or Two-Electron Transfer? The Ambiguous Nature of the Discharge Products in Sodium-Oxygen Batteries

(2016) Conrad L. Bender et al.   ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

The Nature and Impact of Side Reactions in Glyme-based Sodium-Oxygen Batteries

(2016) Robert Black et al.   ChemSusChem

Li–O2 cells with LiBr as an electrolyte and a redox mediator

(2016) Won-Jin Kwak et al.   Energy & Environmental Science

Insights into the Chemical Nature and Formation Mechanisms of Discharge Products in Na–O2 Batteries by Means of Operando X-ray Diffraction

(2016) R. Pinedo et al.   Journal of Physical Chemistry C

High Capacity Na–O2 Batteries: Key Parameters for Solution-Mediated Discharge

(2016) L. Lutz et al.   Journal of Physical Chemistry C

Robust NaO2 Electrochemistry in Aprotic Na–O2 Batteries Employing Ethereal Electrolytes with a Protic Additive

(2016) Iwnetim I. Abate et al.   Journal of Physical Chemistry Letters

Sodium–Oxygen Battery: Steps Toward Reality

(2016) Imanol Landa-Medrano et al.   Journal of Physical Chemistry Letters

A lithium–oxygen battery based on lithium superoxide

(2016) Jun Lu et al.   NATURE

Dissolution and ionization of sodium superoxide in sodium–oxygen batteries

(2016) Jinsoo Kim et al.   Nature Communications

Visualizing Current-Dependent Morphology and Distribution of Discharge Products in Sodium-Oxygen Battery Cathodes

(2016) Daniel Schröder et al.   Scientific Reports

Promise and reality of post-lithium-ion batteries with high energy densities

(2016) Jang Wook Choi et al.   Nature Reviews Materials

Catalytic Behavior of Lithium Nitrate in Li-O2 Cells

(2015) Daniel Sharon et al.   ACS Applied Materials & Interfaces

Mechanistic insights for the development of Li–O2 battery materials: addressing Li2O2 conductivity limitations and electrolyte and cathode instabilities

(2015) Bryan D. McCloskey et al.   CHEMICAL COMMUNICATIONS

Intrinsic Conductivity in Sodium–Air Battery Discharge Phases: Sodium Superoxide vs Sodium Peroxide

(2015) Sheng Yang et al.   CHEMISTRY OF MATERIALS

Performance of zinc air batteries with added $$\hbox {K}_{2}\hbox {CO}_{3}$$ K 2 CO 3 in the alkaline electrolyte

(2015) Daniel Schröder et al.   JOURNAL OF APPLIED ELECTROCHEMISTRY

Discharge and Charge Reaction Paths in Sodium–Oxygen Batteries: Does NaO2 Form by Direct Electrochemical Growth or by Precipitation from Solution?

(2015) Pascal Hartmann et al.   Journal of Physical Chemistry C

Cell Chemistry of Sodium–Oxygen Batteries with Various Nonaqueous Electrolytes

(2015) Ning Zhao et al.   Journal of Physical Chemistry C

The critical role of phase-transfer catalysis in aprotic sodium oxygen batteries

(2015) Chun Xia et al.   Nature Chemistry

Unveiling the charge migration mechanism in Na2O2: implications for sodium–air batteries

(2015) Rafael B. Araujo et al.   PHYSICAL CHEMISTRY CHEMICAL PHYSICS

Cycling Li-O2 batteries via LiOH formation and decomposition

(2015) T. Liu et al.   SCIENCE

From lithium to sodium: cell chemistry of room temperature sodium–air and sodium–sulfur batteries

(2015) Philipp Adelhelm et al.   Beilstein Journal of Nanotechnology

Toward Better Sodium-Oxygen batteries: A Study on the Performance of Engineered Oxygen Electrodes based on Carbon Nanotubes

(2015) Conrad L. Bender et al.   Energy Technology

Analyzing transport paths in the air electrode of a zinc air battery using X-ray tomography

(2014) Daniel Schröder et al.   ELECTROCHEMISTRY COMMUNICATIONS

Chemical and Electrochemical Differences in Nonaqueous Li–O2 and Na–O2 Batteries

(2014) Bryan D. McCloskey et al.   Journal of Physical Chemistry Letters

Nanoscale Stabilization of Sodium Oxides: Implications for Na–O2 Batteries

(2014) ShinYoung Kang et al.   NANO LETTERS

The role of LiO2 solubility in O2 reduction in aprotic solvents and its consequences for Li–O2 batteries

(2014) Lee Johnson et al.   Nature Chemistry

Long-life Na–O2 batteries with high energy efficiency enabled by electrochemically splitting NaO2 at a low overpotential

(2014) Ning Zhao et al.   PHYSICAL CHEMISTRY CHEMICAL PHYSICS

On the Thermodynamics, the Role of the Carbon Cathode, and the Cycle Life of the Sodium Superoxide (NaO2) Battery

(2014) Conrad L. Bender et al.   Advanced Energy Materials

Pressure Dynamics in Metal–Oxygen (Metal–Air) Batteries: A Case Study on Sodium Superoxide Cells

(2013) Pascal Hartmann et al.   Journal of Physical Chemistry C

A comprehensive study on the cell chemistry of the sodium superoxide (NaO2) battery

(2013) Pascal Hartmann et al.   PHYSICAL CHEMISTRY CHEMICAL PHYSICS

Screening for Superoxide Reactivity in Li-O2 Batteries: Effect on Li2O2/LiOH Crystallization

(2012) Robert Black et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

A rechargeable room-temperature sodium superoxide (NaO2) battery

(2012) Pascal Hartmann et al.   NATURE MATERIALS

Electrochemical properties of room temperature sodium–air batteries with non-aqueous electrolyte

(2011) Qian Sun et al.   ELECTROCHEMISTRY COMMUNICATIONS

Communications: Elementary oxygen electrode reactions in the aprotic Li-air battery

(2010) J. S. Hummelshøj et al.   JOURNAL OF CHEMICAL PHYSICS

Parameter analysis of a practical lithium- and sodium-air electric vehicle battery

(2010) E. Peled et al.   JOURNAL OF POWER SOURCES