R.K. Steunenberg scite author profile

R.K. Steunenberg

5Publications

111Citation Statements Received

46Citation Statements Given

How they've been cited

214

107

How they cite others

Affiliations

Argonne National Laboratory, Making View (Norway), University of Louisville

Publications

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EMF Studies of Lithium‐Rich Lithium‐Aluminum Alloys for High‐Energy Secondary Batteries

Selman

Denuccio

et al. 1977

J. Electrochem. Soc.

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Emf measurements were made across the lithium-rich half of the lithiumaluminum system at temperatures from 390 ~ to 550~ using a cell of the type Li/LiC1-KC1 (or LiF-LiC1-LiBr)/Li-A1. The lithium activity increases from 0.007 to approximately 0.7 over the composition range of 48-56 atomic percent (a/o) lithium (the E-phase region). A compound, Li3A12, rather than Li2A1, as reported in standard compilations, exists at temperatures up to the peritectic decomposition at 520r and forms a two-phase region of high lithium activity (>0.85) with the lithium-rich liquid phase. This compound has an estimated free energy of formation of --58 kJ/mole at 700~ The emf data indicate that the lithium-rich liquidus is about 2 a/o richer in lithium than the composition shown in standard compilations of binary phase diagrams.

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Voltammetry of Uranium and Plutonium in Molten LiCl ‐ NaCl ‐ CaCl2 ‐ BaCl2 : I . Reduction of U(III) to Uranium Metal1

Poa

Tomczuk

Steunenberg

1988

J. Electrochem. Soc.

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The electrochemical reduction of U(III) to uranium metal in molten normalLiCl‐normalNaCl‐CaCl2‐BaCl2 electrolyte was investigated, using cyclic voltammetry. The reaction is reversible and controlled by diffusion mass transfer, both at low‐carbon steel and molybdenum electrodes. The rate increased with UCl3 concentration up to about 3.4 mole percent and with temperature over the range of 435°–528°C. Standard potentials ranged from −1.07 to −1.50V vs. normalAg/normalAgCl ; the U(III) diffusion coefficients were between 0.5 normaland 5.0×10−6 cm2/normals .

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Pyrolysis of Fluorocarbons¹

Steunenberg¹,

Cady²

1952

J. Am. Chem. Soc.

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A Preliminary Investigation of High Temperature Lithium/Iron Sulfide Secondary Cells

Vissers

Tomczuk

Steunenberg

1974

J. Electrochem. Soc.

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Formation and Spectra of Uranyl(V) Chloride in Molten Chloride Solvents

Wenz¹,

Adams²,

Steunenberg³

1964

Inorg. Chem.

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R.K. Steunenberg

EMF Studies of Lithium‐Rich Lithium‐Aluminum Alloys for High‐Energy Secondary Batteries

Voltammetry of Uranium and Plutonium in Molten LiCl ‐ NaCl ‐ CaCl2 ‐ BaCl2 : I . Reduction of U(III) to Uranium Metal1

Pyrolysis of Fluorocarbons¹

A Preliminary Investigation of High Temperature Lithium/Iron Sulfide Secondary Cells

Formation and Spectra of Uranyl(V) Chloride in Molten Chloride Solvents

Contact Info

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Resources

About

R.K. Steunenberg

EMF Studies of Lithium‐Rich Lithium‐Aluminum Alloys for High‐Energy Secondary Batteries

Voltammetry of Uranium and Plutonium in Molten LiCl ‐ NaCl ‐ CaCl2 ‐ BaCl2 : I . Reduction of U(III) to Uranium Metal1

Pyrolysis of Fluorocarbons1

A Preliminary Investigation of High Temperature Lithium/Iron Sulfide Secondary Cells

Formation and Spectra of Uranyl(V) Chloride in Molten Chloride Solvents

Contact Info

Product

Resources

About

Pyrolysis of Fluorocarbons¹