Search Results - "Mausolf, Edward"

Hybridised production of technetium-99m and technetium-101 with fluorine-18 on a low-energy biomedical cyclotron by Johnstone, Erik V., Mayordomo, Natalia, Mausolf, Edward J.

“…New modes of production and supply of short-lived radioisotopes using accelerators are becoming attractive alternatives to the use of nuclear reactors. In this…”
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Fusion-Based Neutron Generator Production of Tc-99m and Tc-101: A Prospective Avenue to Technetium Theranostics by Mausolf, Edward J., Johnstone, Erik V., Mayordomo, Natalia, Williams, David L., Guan, Eugene Yao Z., Gary, Charles K.

“…Presented are the results of 99mTc and 101Tc production via neutron irradiation of natural isotopic molybdenum (Mo) with epithermal/resonance neutrons…”
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Discovery, nuclear properties, synthesis and applications of technetium-101 by Johnstone, Erik V., Mayordomo, Natalia, Mausolf, Edward J.

“…Technetium-101 ( 101 Tc) has been poorly studied in comparison with other Tc isotopes, although it was first identified over ~80 years ago shortly after the…”
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Time-Resolved Infrared Reflectance Studies of the Dehydration-Induced Transformation of Uranyl Nitrate Hexahydrate to the Trihydrate Form by Johnson, Timothy J, Sweet, Lucas E, Meier, David E, Mausolf, Edward J, Kim, Eunja, Weck, Philippe F, Buck, Edgar C, McNamara, Bruce K

“…Uranyl nitrate is a key species in the nuclear fuel cycle. However, this species is known to exist in different states of hydration, including the hexahydrate…”
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Nanostructure of metallic particles in light water reactor used nuclear fuel by Buck, Edgar C., Mausolf, Edward J., McNamara, Bruce K., Soderquist, Chuck Z., Schwantes, Jon M.

“…[Display omitted] •An extraordinary nano-structure has been observed in the noble metal particles that form in UO2 reactor fuels.•The composition of the…”
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Sequestration of radioactive iodine in silver-palladium phases in commercial spent nuclear fuel by Buck, Edgar C., Mausolf, Edward J., McNamara, Bruce K., Soderquist, Chuck Z., Schwantes, Jon M.

“…Radioactive iodine is the Achilles' heel in the design for the safe geological disposal of spent uranium oxide (UO2) nuclear fuel. Furthermore, iodine's high…”
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Separation of metallic residues from the dissolution of a high-burnup BWR fuel using nitrogen trifluoride by McNamara, Bruce K., Buck, Edgar C., Soderquist, Chuck Z., Smith, Frances N., Mausolf, Edward J., Scheele, Randall D.

“…Selective separation of volatiles: Mo, Tc, and Ru, from nanoparticulate noble metal (hcp) phase using NF3 and the non-volatile residue; acicular, micron…”
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Conditions for Critical Effects in the Mass Action Kinetics Equations for Water Radiolysis by Wittman, Richard S, Buck, Edgar C, Mausolf, Edward J, McNamara, Bruce K, Smith, Frances N, Soderquist, Chuck Z

“…We report on a subtle global feature of the mass action kinetics equations for water radiolysis that results in predictions of a critical behavior in H2O2 and…”
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Chemical stabilization of Hanford tank residual waste by Cantrell, Kirk J., Um, Wooyong, Williams, Benjamin D., Bowden, Mark E., Gartman, Brandy, Lukens, Wayne W., Buck, Edgar C., Mausolf, Edward J.

“…Three different chemical treatment methods were tested for their ability to stabilize residual waste from Hanford tank C-202 for reducing contaminant release…”
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Hexaammine-cobalt(III) pertechnetate: preparation, structure and solubility by Poineau, Frederic, Mausolf, Edward, Kerlin, William, Czerwinski, Kenneth

“…A new pertechnetate salt, [Co(NH 3 ) 6 ][TcO 4 ] 3 ·2H 2 O, was prepared from the reaction of NH 4 TcO 4 and [Co(NH 3 ) 6 ]Cl 3 in water. The [Co(NH 3 ) 6…”
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Sequestration of radioactive iodine in silver-palladium phases in commercial spent nuclear fuel by Buck, Edgar C., Mausolf, Edward J., McNamara, Bruce K., Soderquist, Chuck Z., Schwantes, Jon M.

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Technetium Chemistry in the Fuel Cycle: Combining Basic and Applied Studies by Poineau, Frederic, Mausolf, Edward, Jarvinen, Gordon D, Sattelberger, Alfred P, Czerwinski, Kenneth R

“…Technetium is intimately linked with nuclear reactions. The ultraminute natural levels in the environment are due to the spontaneous fission of uranium…”
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Nanostructure of metallic particles in light water reactor used nuclear fuel by Buck, Edgar C., Mausolf, Edward J., McNamara, Bruce K., Soderquist, Chuck Z., Schwantes, Jon M.

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Chemical stabilization of Hanford tank residual waste by Cantrell, Kirk J., Um, Wooyong, Williams, Benjamin D., Bowden, Mark E., Gartman, Brandy, Lukens, Wayne W., Buck, Edgar C., Mausolf, Edward J.

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Synthesis, Structure Elucidation, and Redox Properties of [superscript 99]Tc Complexes of Lacunary Wells-Dawson Polyoxometalates: Insights into Molecular [superscript 99]Tc-Metal Oxide Interactions by McGregor, Donna, Burton-Pye, Benjamin P., Howell, Robertha C., Mbomekalle, Israel M., Lukens, Jr., Wayne W., Bian, Fang, Mausolf, Edward, Poineau, Frederic, Czerwinski, Kenneth R., Francesconi, Lynn C.

“…The isotope {sup 99}Tc ({beta}{sub max}, 293.7; half-life, 2.1 x 10{sup 5} years) is an abundant product of uranium-235 fission in nuclear reactors and is…”
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Technetium Chemistry in the Fuel Cycle: Combining Basic and Applied Studies by Poineau, Frederic, Mausolf, Edward, Jarvinen, Gordon D., Sattelberger, Alfred P., Czerwinski, Kenneth R.

“…Technetium is intimately linked with nuclear reactions. The ultraminute natural levels in the environment are due to the spontaneous fission of uranium…”
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Separation of Pertechnetate from Uranium in a Simulated UREX Processing Solution Using Anion Exchange Extraction Chromatography by Jarvinen, Gordon D., Long, Kristy M., Goff, George S., Runde, Wolfgang H., Mausolf, Edward J., Czerwinski, Kenneth R., Poineau, Frederic, McAlister, Daniel R., Horwitz, E. Philip

“…A process to separate technetium from uranium in a simulated process solution resulting from the uranium extraction (UREX) process was demonstrated using a new…”
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Spectroscopic and structural characterization of reduced technetium species in acetate media by Mausolf, Edward, Poineau, Frederic, Droessler, Janelle, Czerwinski, Kenneth R.

“…The reduction of ammonium pertechnetate by sodium borohydride in 0.1 M NaOH/glacial acetic acid has been studied. The reduction products (solids and solutions)…”
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Formation of Tc metal in 12 M HCl using Zn as a reductant by Mausolf, Edward, Johnstone, Erik, Poineau, Frederic, Nguyen, Suzanne, Jones, Steven, Hartmann, Thomas, Buck, Edgar, Czerwinski, Kenneth

“…Amorphous TcO 2 and NH 4 TcO 4 solubilized into 12 M HCl will spontaneously convert to hexachlorotechnetate (TcCl 6 2− ). This process is accelerated upon…”
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Synthesis, Structure Elucidation, and Redox Properties of 99 Tc Complexes of Lacunary Wells−Dawson Polyoxometalates: Insights into Molecular 99 Tc−Metal Oxide Interactions by McGregor, Donna, Burton-Pye, Benjamin P., Howell, Robertha C., Mbomekalle, Israel M., Lukens, Wayne W., Bian, Fang, Mausolf, Edward, Poineau, Frederic, Czerwinski, Kenneth R., Francesconi, Lynn C.

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