Donald Sadoway

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SCIENTIFIC PAPERS AUTHORED BY DONALD SADOWAY

 

169. H. Yin, B. Chung, F. Chen, T. Ouchi, J. Zhao, N. Tanaka, and D.R. Sadoway, “Faradaically selective membrane for energy storage devices,” Nat. Energy, DOI: 10.1038/s41560-017-0072-1.

168. F. Chen, D. Yang, W. Zha, B. Zhu, Y. Zhang, J. Li, Y. Gu, Q. Shen, L. Zhang, and D.R. Sadoway, “Solid Polymer Electrolytes Incorporating Cubic Li7La3Zr2O12 for All-Solid-State Lithium Rechargeable Batteries,” Electrochim. Acta, DOI: 10.1016/j.electacta.2017.11.164.

167. J. Peng, H. Yin, J. Zhao, X. Yang, A.J. Bard, and D.R. Sadoway, “Liquid-tin-assisted molten salt electrodeposition of photoresponsive n-type silicon films,” Adv. Funct. Mater.,

DOI: 10.1002/adfm.201703551.

166. J.N. Newhouse and D.R. Sadoway, “Charge-Transfer Kinetics of Alloying in Mg-Sb and Li-Bi Liquid Metal Electrodes,” J. Electrochem. Soc., 164 (12), A2665-A2669 (2017).

165. W.D. Judge, A. Allanore, D.R. Sadoway, and G. Azimi, “E-log pO2 diagrams for ironmaking by molten oxide electrolysis,” Electrochim. Acta, 247, 1088-1094 (2017).

164. T. Ouchi and D.R. Sadoway, “Positive current collector for Li⎪Sb-Pb liquid metal battery,” J. Power Sources, 357, 158-163 (2017).

163. S. So, F. Riboni, I. Hwang, D. Paul, J. Hammond, O. Tomanec, R. Zboril, D.R. Sadoway, P. Schmuki, “The double-walled nature of TiO2 nanotubes and formation of tube-in-tube structures - a characterization of different tube morphologies,” Electrochim. Acta, 231, 721-731 (2017).

162. R.F. Ashour, H. Yin, T. Ouchi, D.H. Kelley, and D.R. Sadoway, “Molten Amide-Hydroxide-Iodide Electrolyte for a Low-Temperature Sodium-Based Liquid Metal Battery,” J. Electrochem. Soc., 164 (2) A535-A537 (2017).

161. H. Yin, B. Chung, and D.R. Sadoway, “Electrolysis of a molten semiconductor,” Nat. Commun., 7, 12584 (2016). DOI: 10.1038/ncomms12584 (2016).

161a S. Lane, A. Karatsolis, and D.R. Sadoway, “Materials Science and Engineering Reasoning: Anew Tool for Helping Students See the Big Picture,” Paper ID #16876, ASEE 123rd Annual Conference, 2016.

160. T. Ouchi, H. Kim, B.L. Spatocco, and D.R. Sadoway, “Calcium-based multi-element chemistry for grid-scale electrochemical energy storage,” Nat. Commun., 7, 10999 (2016). DOI: 10.1038/ncomms10999 (2016).

159. H. Li, H. Yin, K. Wang, S. Cheng, K. Jiang, and D.R. Sadoway, “Liquid Metal Electrodes for Energy Storage Batteries,” Adv. Energy Mater., 2016, 6, 1600483.

158. B.L. Spatocco, T. Ouchi, G. Lambotte, P.J. Burke, and D.R. Sadoway, “Low-Temperature Molten Salt Electrolytes for Membrane-Free Sodium Metal Batteries,” J. Electrochem. Soc., 162 (14) A2729-A2736 (2015).

157. B.L. Spatocco and D.R. Sadoway, “Cost-based discovery for engineering solutions,” in Electrochemical Engineering Across Scales: From Molecules to Processes, Volume 15, Chapter 7, R.C. Alkire and J. Lipkowski, editors, Wiley, New York, 2015 (ISBN: 978-3-527-33345-5).

156. M.M. Kane, J.N. Newhouse, and D.R. Sadoway, “Electrochemical determination of the thermodynamic properties of lithium-antimony alloys,” J. Electrochem. Soc., 162(3), A421-A425 (2015).

155. X. Ning, S.  Phadke, B. Chung, H. Yin, P. Burke, and D.R. Sadoway, “Self-healing Li-Bi liquid metal battery for grid-scale energy storage,” J. Power Sources, 275, 370-376 (2015).

154. K. Wang, K. Jiang, B. Chung, T. Ouchi, P.J. Burke, D.A. Boysen, D.J. Bradwell, H. Kim, U. Muecke, D.R. Sadoway, “Lithium-antimony-lead liquid metal battery for grid-level storage,” Nature, 514(7522), 348-350 (2014).

153. T. Ouchi, H. Kim, X. Ning, and D.R. Sadoway, “Calcium-Antimony Alloys as Electrodes for Liquid Metal Batteries,” J. Electrochem. Soc., 161(12), A1898-A1904 (2014).

152. D.H. Kelley and D.R. Sadoway, “Mixing in a liquid metal electrode,” Phys. Fluids, 26(5), 057102/1-057102/12 (2014); http://dx.doi.org/10.1063/1.4875815.

151. Q. Hu, A. Caputo, and D.R. Sadoway, “Solid-state Graft Copolymer Electrolytes for Lithium Battery Applications,” J. Vis. Exp. (78), e50067, doi:10.3791/50067 (2013).

150. H. Yin, X. Mao, D. Tang, W. Xiao, L. Xing, H. Zhu, D. Wang, and D.R. Sadoway, “Capture and electrochemical conversion of CO2 to value-added carbon and oxygen by molten salt electrolysis,” Energy Environ. Sci., 6, 1538-1545 (2013).

149. S. Poizeau and D.R. Sadoway, “Application of the Molecular Interaction Volume Model (MIVM) to calcium-based liquid alloys of systems forming high-melting intermetallics,” J. Am. Chem. Soc., 135(22), 8260-8265 (2013).

148. A. Allanore, L. Yin, and D.R. Sadoway, “A new anode material for oxygen evolution in molten oxide electrolysis,” Nature, 497(7449), 353-356 (2013), doi:10.1038/nature12134.

147. H. Kim, D.A. Boysen, T. Ouchi, and D.R. Sadoway, “Calcium-bismuth electrodes for large-scale energy storage (liquid metal batteries),” J. Power Sources, 241, 239-248 (2013).

146. J.M. Newhouse, S. Poizeau, H. Kim, B.L. Spatocco, and D.R. Sadoway, “Thermodynamic properties of calcium–magnesium alloys determined by emf measurements,” Electrochim. Acta, 91, 293-301 (2013).

145. H. Kim, D.A. Boysen, J.M. Newhouse, B.L. Spatocco, B. Chung, P.J. Burke, D.J. Bradwell, K. Jiang, A.A. Tomaszowska , K. Wang, W. Wei , L.A. Ortiz , S.A. Barriga , S.M. Poizeau , and D.R. Sadoway, “Liquid Metal Batteries: Past, Present, and Future,” Chem. Rev., 113 (3), 2075-2099 (2013), doi: 10.1021/cr300205k (2012).

144. S. Poizeau, H. Kim, J.M. Newhouse, B.L. Spatocco, and D.R. Sadoway, “Determination and modeling of the thermodynamic properties of liquid calcium–antimony alloys,” Electrochim. Acta, 76, 8-15 (2012).

143. A. Locknar, R. Mitchell, J. Rankin, and D.R. Sadoway, “Integration of Information Literacy Components into a Large First-Year Lecture-Based Chemistry Course,” J. Chem. Ed., 89, 487-491 (2012).

142. D.J. Bradwell, H. Kim, A.H.C. Sirk, and D.R. Sadoway, “Magnesium-antimony liquid metal battery for stationary energy storage,” J. Am. Chem. Soc., 134(4), 1895-1897 (2012).

141. H. Kim, D.A. Boysen, D.J. Bradwell, B. Chung,  K. Jiang, A.A. Tomaszowska, K. Wang, W. Wei, and D.R. Sadoway, “Thermodynamic Properties of Calcium-Bismuth Alloys Determined by Emf Measurements,” Electrochim. Acta, 60, 154-162 (2012).

140. S. Poizeau and D.R. Sadoway, “Towards a Design Tool for Self-heated Cells Producing Liquid Metal by Electrolysis,” in Light Metals, S.J. Lindsay, ed., TMS, Hoboken, NJ, 2011, pp. 387-392.

139. D.J. Bradwell, S. Osswald, W. Wei, S.A. Barriga, G. Ceder, and D.R. Sadoway, “Recycling ZnTe, CdTe, and Other Compound Semiconductors by Ambipolar Electrolysis,” J. Am. Chem. Soc., 133(49), 19971-19975 (2011).

138. H. Kim , J. Paramore, A. Allanore, and D.R. Sadoway, “Electrolysis of molten iron oxide with an iridium anode: the role of electrolyte basicity,” J. Electrochem. Soc., 158(10), E101-E105 (2011).

137. H.A.G. Stern, D.R. Sadoway, and J.W. Tester, “Copper Sulfate Reference Electrode,” J. Electroanal. Chem., 659, 143-150 (2011).

136. Q. Hu, S. Osswald, R. Daniel, Y. Zhu, S. Wesel, L, Ortiz, and D.R. Sadoway, “Graft copolymer-based lithium-ion battery for high-temperature operation,” J. Power Sources, 196 (13), 5604-5610 (2011).

135. D. Wang, A.J. Gmitter, and D.R. Sadoway, “Production of oxygen gas and liquid metal by electrochemical decomposition of molten iron oxide,” J. Electrochem. Soc., 158 (6), E51-E54 (2011).

134. W. Wei, X. Mao, L.A. Ortiz, and D.R. Sadoway, “Oriented silver oxide nanostructures synthesized through a template-free electrochemical route,” J. Mater. Chem., 21, 432-438 (2011).

133. Yaron, D., Karabinos, M., Leinhardt, G., Greeno, J., Davenport, J., McLaren, B., Bartolo, M., Portman, J., Ashe, C., Carter, W.C., Sadoway, D. (2010). Instruction Online: Core Components for Re-Use. In Belford, R.E., Moore, J.W., Pence, H.E. (eds.), Enhancing Learning with Online Resources, Social Networking, and Digital Libraries, 2010, Chapter 13, pp 235–262. DOI: 10.1021/bk-2010-1060.ch013.

132. A.T. Vai, J.A. Yurko, D.H. Wang, and D.R. Sadoway, “Molten Oxide Electrolysis for Lunar Oxygen Generation Using In-Situ Resources,” Jim Evans Honorary Symposium, eds. B.Q. Li, B.G. Thomas, L. Zhang, F.M. Doyle, and A.P. Campbell, TMS Annual Meeting 2010, Seattle, WA, pp. 301-308.

132a A.H.C. Sirk, D.R. Sadoway, and L. Sibille, “Direct electrolysis of molten lunar regolith for the production of oxygen and metals on the moon,” ECS Trans. 28(6, Electrochemistry in Mineral and Metal Processing 8 (EMMP 8)), 367-373 (2010).

131. L. Sibille, D.R. Sadoway, A. Sirk, P. Tripathy, O. Melendez, E. Standish, J.A. Dominguez, D.M. Stefanescu, P.A. Curreri, and S. Poizeau, “Recent Advances in Scale-up Development of Molten Regolith Electrolysis for Oxygen Production in support of a Lunar Base,” Proceedings of the 47th AIAA Aerospace Sciences Meeting, Paper AIAA 2009-659, AIAA, Arlington, VA, 2009.

130. E.A. Olivetti, K.C. Avery, I. Taniguchi, D.R. Sadoway, and A.M. Mayes, “Electrochemical Characterization of Vanadium Oxide Nanostructured Electrode,” J. Electrochem. Soc., 155 (7), A488-A493 (2008).

130a. L.M. Bartolo, S.C. Glotzer, C.S. Lowe, A.C. Powell, D.R. Sadoway, J.A. Warren, V.K. Tewary, M.J.M. Krane, and K. Rajan, “Materials Informatics: Facilitating the Integration of Data-Driven Materials Research with Education,” JOM: the journal of the Minerals, Metals & Materials Society, 60(3), 51-52 (2008). DOI10.1007/s11837-008-0033-z

129. A.H.C. Sirk and D.R. Sadoway, “Electrochemical Synthesis of Diamondlike Carbon Films,” J. Electrochem. Soc., 155 (5), E49-E55 (2008).

128. J.L. Lutkenhaus, E.A. Olivetti, E.A. Verploegen, B.M. Cord, D.R. Sadoway, and P.T. Hammond, “Anisotropic Structure and Transport in Self-Assembled Layered Polymer-Clay Nanocomposites,” Langmuir, 23(16),  8515-8521 (2007).

127. E.A. Olivetti, J.H. Kim, D.R. Sadoway, A. Asatekin, and A.M. Mayes, “Sol-gel Synthesis of Vanadium Oxide within a Block Copolymer Matrix,” Chem. Mater., 18, 2828-2833 (2006).

126. S.C. Mui, J. Jasinski, V.J. Leppert, M. Mitome, D.R. Sadoway, and A.M. Mayes, “Microstructure Effects on the Electrochemical Kinetics of Vanadium Pentoxide Thin-film Cathodes,” J. Electrochem. Soc., 153 (7), A1372-A1377 (2006).

125. P.E. Trapa, A.B. Reyes, R.S. Das Gupta, A.M. Mayes, and D.R. Sadoway, “Polarization in Cells Containing Single-ion Graft Copolymer Electrolytes,” J. Electrochem. Soc., 153 (6), A1098-A1101 (2006).

124. L.M. Bartolo, S.C. Glotzer, C.S. Lowe, A.C. Powell, IV, D.R. Sadoway, J.A. Warren, V.K. Tewary, and K. Rajan, “NSF NSDL Materials Digital Library & MSE education,” J. Mater. Ed., 28 (1), 21-26 (2006).

123. P.E. Trapa, M.H. Acar, D.R. Sadoway, and A.M. Mayes, “Synthesis and Characterization of Single-ion Graft Copolymer Electrolytes,” J. Electrochem. Soc., 152 (12), A2281-A2284 (2005).

122. N. Ariel, G. Ceder, D.R. Sadoway, and E.A. Fitzgerald, “Electrochemically Controlled Transport of Lithium through Ultra-thin SiO2,” J. Appl. Phys., 98, 023516 (2005).

121.  L. Bartolo, C. Lowe, D. Sadoway, and P. Trapa, “Large introductory science courses & digital libraries,” in Proceedings of the 5th ACM/IEEE-CS joint conference on Digital libraries, ACM, New York, NY, p. 366.

120. M. Kurian, M.E. Galvin, P.E. Trapa, D.R. Sadoway, and A.M. Mayes, “Single-ion conducting polymer-silicate nanocomposite electrolytes for lithium battery applications,” Electrochim. Acta, 50 (10), 2125-2134 (2005).

119. L.M. Bartolo, C.S. Lowe, D.R. Sadoway, A.C. Powell, IV, and S.C. Glotzer, “NSDL MatDL: Exploring digital library roles,” D-Lib Magazine, 11(3), (2005). Available: http://www.dlib.org/dlib/march05/bartolo/03bartolo.html.

118. A.M. Johnson, D.R. Sadoway, M.J. Cima, and R. Langer, “Design and Testing of an Impedance-Based Sensor for Monitoring Drug Delivery,” J. Electrochem. Soc., 152 (1), H6-H11 (2005).

117. S.-W. Ryu, P.E. Trapa, S.C. Olugebefola, J.A. Gonzalez-Leon, D.R. Sadoway, and A.M. Mayes, “Effect of Counter Ion Placement on Conductivity in Single-Ion Conducting Block Copolymer Electrolytes,” J. Electrochem. Soc., 152 (1), A158-A163 (2005).

116. P. E. Trapa, Y.-Y. Won, S.C. Mui, E.A. Olivetti, B. Huang, D.R. Sadoway, A.M. Mayes, and S. Dallek, “Rubbery Graft Copolymer Electrolytes for Solid-State, Thin-Film Lithium Batteries,” J. Electrochem. Soc., 152 (1), A1-A5 (2005).

115. L.M. Bartolo, S.C. Glotzer, J.I. Khan, A.C. Powell, IV, D.R. Sadoway, and K.M. Anderson, “MatDL.org: The Materials Digital Library and the National Science Digital Library Program,” J. Mater. Ed. 26 (3-4), 213-218 (2004).

114. D.R. Sadoway, “Block and graft copolymer electrolytes for high-performance, solid-state, lithium batteries,” J. Power Sources, 129 (1), 1-3 (2004).

113. Y.-I. Jang, F.C. Chou, B. Huang, D.R. Sadoway, and Y.-M. Chiang, “Magnetic characterization of orthorhombic LiMnO2 and electrochemically transformed spinel LixMnO2 (x<1), J. Phys. Chem. Solids, 64 (12), 2525-2533 (2003).

112. D.R. Sadoway and A.M. Mayes, “Portable Power: Advanced Rechargeable Lithium Batteries,” MRS Bulletin, 27 (8), 590-594 (2002).

111. H. Zhu and D.R. Sadoway, “Towards Elimination of the Anode Effect and Perfluorocarbon Emissions from Hall-Héroult Cells,” Molten Salts, Proc. Thirteenth Internat. Symp., H.C. Delong, R.W. Bradshaw, M. Matsunaga, G.R. Stafford, and P.C. Trulove, eds., The Electrochemical Society, Pennington NJ, 2002, pp. 411-418.

110. A.C. Ducret, D. Khetpal, and D.R. Sadoway “Electrical Conductivity and Transference Number Measurements of FeO - CaO - MgO - SiO2 Melts,” Molten Salts, Proc. Thirteenth Internat. Symp., H.C. Delong, R.W. Bradshaw, M. Matsunaga, G.R. Stafford, and P.C. Trulove, eds., The Electrochemical Society, Pennington NJ, 2002, pp. 347-353.

109. D.J. Harris, T.J. Bonagamba, K. Schmidt-Rohr, P.P. Soo, D.R. Sadoway, and A.M. Mayes, “Solid-State NMR Investigation of Block Copolymer Electrolyte Dynamics,” Macromolecules, 35 (9), 3772-3774 (2002).

108. S.C. Mui, P.E. Trapa, B. Huang, P.P. Soo, M.I. Lozow, T.C. Wang, R.E. Cohen, A.N. Mansour, S. Mukerjee, A.M. Mayes, and D.R. Sadoway, “Block Copolymer-Templated Nanocomposite Electrodes for Rechargeable Lithium Batteries,” J. Electrochem. Soc., 149 (12), A1610-A1615 (2002).

107. P.E. Trapa, B. Huang, D.R. Sadoway, and A.M. Mayes, “Block Copolymer Electrolytes Synthesized by Atom Transfer Radical Polymerization (ATRP) for Solid-State, Thin-Film Lithium Batteries,” Electrochem. Solid-State Lett., 5 (5), A85-A88 (2002).

106. G.J. Kipouros and D.R. Sadoway, “A Thermochemical Analysis of the Production of Anhydrous MgCl2,” J. Light Met., 1 (2), 111-117 (2001).

105. H. Zhu and D.R. Sadoway, “Synthesis of Nanoscale Particles of Ta and Nb3Al by Homogeneous Reduction in Liquid Ammonia,” J. Mater. Res., 16 (9), 2544-2549 (2001).

104. N.A. Fried, K.G. Rhoads, and D.R. Sadoway, “Transference Number Measurements of TiO2 - BaO Melts by Stepped-Potential Chronoamperometry,” Electrochim. Acta, 46 (22), 3351-3358 (2001).

103. A.G. Ruzette, P.P. Soo, D.R. Sadoway, and A.M. Mayes, “Melt-Formable Block Copolymer Electrolytes for Lithium Rechargeable Batteries,” J. Electrochem. Soc., 148 (6), A537-A543 (2001).

102. D.R. Sadoway, B. Huang, P.E. Trapa, P.P. Soo, P. Bannerjee, A.M. Mayes, “Self-doped block copolymer electrolytes for solid-state, rechargeable lithium batteries,” J. Power Sources, 97-98, 621-623 (2001).

101. B. Huang, C.C. Cook, S. Mui, P.P. Soo, D.H. Staelin, A.M. Mayes, D.R. Sadoway, “High energy density, thin-film, rechargeable lithium batteries for marine field operations,” J. Power Sources, 97-98, 674-676 (2001).

100. D.R. Sadoway, “Inert Anodes for the Hall-Héroult Cell,” JOM, 53 (5), 34-35 (2001).

99. H. Zhu and D.R. Sadoway, “Towards Elimination of Anode Effect and PFC Emissions via Current Shunting,” Light Metals 2001, J.L. Anjier, editor, TMS, Warrendale, PA, 2001, pp. 303-307.

98. Y.-I. Jang, B. Huang, F.C. Chou, D.R. Sadoway, and Y.-M. Chiang, “Magnetic characterization of λ-MnO2 and Li2Mn2O4 prepared by electrochemical cycling of LiMn2O4,” J. Appl. Phys., 87 (10), 7382-7388 (2000).

97. Donald L. Anglin, Donald R. Sadoway, “Battery,” in AccessScience@McGraw-Hill, http://www.accessscience.com/server-java/Arknoid/science/AS/Encyclopedia/0/07/Est_075200_frameset.html, last modified: July 24, 2002.

96. H. Zhu and D.R. Sadoway, “An Electroanalytical Study of Electrode Reactions on Carbon Anodes During Electrolytic Production of Aluminum,” Light Metals 2000, R.D. Peterson, editor, TMS, Warrendale, PA, 2000, pp. 257-263.

95. Y.-I. Jang, B. Huang, H. Wang, D.R. Sadoway, Y.-M. Chiang, “Electrochemical Cycling-Induced Spinel Formation in High-Charge-Capacity Orthorhombic LiMnO2,” J. Electrochem. Soc., 146 (9), 3217-3223 (1999).

94. D.R. Sadoway, “Materials Science as a Vehicle for Teaching Mainstream Chemistry,” J. Mater. Ed., 21 (1 & 2), 5-10 (1999).

93. Y.-I. Jang, B. Huang, H. Wang, G.R. Maskaly, G. Ceder, D.R. Sadoway, Y.-M. Chiang, H. Liu, and H. Tamura, “Synthesis and Characterization of LiAlyCo1-yO2 and LiAlyNi1-yO2,” J. Power Sources, 81-82, 589 593 (1999).

92. H. Wang, Y.-I. Jang, B. Huang, D.R. Sadoway, and Y.-M. Chiang, “Electron Microscopic Characterization of Electrochemically Cycled LiCoO2 and Li(Al,Co)O2 Battery Cathodes,” J. Power Sources, 81-82, 594-598 (1999).

91. H. Zhu and D.R. Sadoway, “The Electrode Kinetics of Perfluorocarbon (PFC) Generation,” Light Metals 1999, C.E. Eckert, editor, TMS, Warrendale, PA, 1999, pp. 241-246.

90. H. Wang, Y.-I. Jang, B. Huang, D.R. Sadoway, and Y.-M. Chiang, “TEM Study of Electrochemical Cycling Induced Damage and Disorder in LiCoO2 Cathodes for Rechargeable Batteries,” J. Electrochem. Soc., 146 (2), 473-480 (1999).

89. Y.-I. Jang, B. Huang, H. Wang, D.R. Sadoway, G. Ceder, Y.-M. Chiang, H. Liu, and H. Tamura, “LiAlyCo1 yO2   Intercalation Cathode for Rechargeable Lithium Batteries,” J. Electrochem. Soc., 146 (3), 862-868 (1999).

88. Y.-M. Chiang, D.R. Sadoway, Y.-I. Jang, B. Huang, and H. Wang, “High Capacity, Temperature-Stable Lithium Aluminum Manganese Oxide Cathodes for Rechargeable Batteries,” Electrochem. Solid-State Lett., 2 (3), 107-110 (1999).

87. T.H. Okabe, H. Zhu, and D.R. Sadoway, “Materials Synthesis by Metallothermic Reduction,” in Proceedings of the International Terje Østvold Symposium, H.A. Øye and O. Wærnes, editors, The Norwegian University of Science and Technology, Trondheim, 1998, pp. 77-88.

86. P.P. Soo, B. Huang, Y-I. Jang, Y-M. Chiang, D.R. Sadoway, and A.M. Mayes, “Rubbery Block Copolymer Electrolytes for Solid-state Rechargeable Batteries,” J. Electrochem. Soc., 146 (1), 32-37 (1999).

85. T.H. Okabe and D.R. Sadoway, “Metallothermic Reduction as an Electronically Mediated Reaction,” J. Mater. Res., 13 (12), 3372-3377 (1998).

84. B. Huang, Y-I. Jang, Y-M. Chiang, and D.R. Sadoway, “Electrochemical Evaluation of LiCoO2 Synthesized by Decomposition and Intercalation of Hydroxides for Lithium-ion Battery Applications,” J. Appl. Electrochem., 28 (12), 1365-1369 (1998).

83. S.L. Schiefelbein, N.A. Fried, K.G. Rhoads, and D.R. Sadoway, “A high-accuracy, calibration-free technique for measuring the electrical conductivity of liquids,” Rev. Sci. Instrum., 69 (9), 3308-3313 (1998).

82. Y-I. Jang, B. Huang, Y-M. Chiang, and D.R. Sadoway, “Stabilization of LiMnO2 in the α-NaFeO2 Structure Type by LiAlO2 Addition,” Electrochem. Solid-State Lett., 1 (1), 13-16 (1998).

81. G.J. Kipouros and D.R. Sadoway, “Towards New Technologies for the Production of Lithium,” JOM, 50 (5) 24-26 (1998).

80. D.R. Sadoway, “Advances and Innovations in the Extraction of Aluminum and Magnesium,” Molten Salt Chemistry and Technology 5, Proceedings of the 5th International Symposium on Molten Salt Chemistry and Technology, Dresden, Germany, August 1997, ed. H. Wendt, Molten Salt Forum Vols. 5-6, Trans Tech Publications, Zurich, 1998, pp. 43-48.

79. G. Ceder, Y-M. Chiang, D.R. Sadoway, M.K. Aydinol, Y-I. Jang, and B. Huang, “Identification of cathode materials for lithium batteries guided by first-principles calculations,” Nature, 392, 694-696 (1998).

78. Y-M. Chiang, Y-I. Jang, H. Wang, B. Huang, D.R. Sadoway, and P. Ye, “Synthesis of LiCoO2 by Decomposition and Intercalation of Hydroxides,” J. Electrochem. Soc., 145, 887-891 (1998).

77. S.L. Schiefelbein and D.R. Sadoway, “A High-accuracy, Calibration-free Technique for Measuring the Electrical Conductivity of Molten Oxides,” Metall. Materials Trans. B, 28 B, 1141-1149 (1997).

76. R.B. Michnick, K.G. Rhoads, and D.R. Sadoway, “Relative Dielectric Constant Measurements in the Butyronitrile-Chloroethane System at Subambient Temperatures,” J. Electrochem. Soc., 144, 2392-2398 (1997).

75. S.S. Nissen and D.R. Sadoway, “Perfluorocarbon (PFC) Generation in Laboratory-Scale Aluminum Reduction Cells,” Light Metals, 1997, R. Huglen, editor, TMS, Warrendale, PA, 1997, pp. 159-164.

74. R.B. Michnick and D.R. Sadoway, “Phase Diagram of Butyronitrile-Chloroethane Determined by Differential Thermal Analysis,” J. Phys. Chem., 100, 19628-19631 (1996).

73. T.H. Okabe, T.N. Deura, T. Oishi, K. Ono, and D.R. Sadoway, “Thermodynamic Properties of Oxygen in Yttrium-Oxygen Solid Solutions,” Metall. Materials Trans. B, 27B, 839-845 (1996).

72. H.B. Shapiro and D.R. Sadoway, “Densities in the Liquid Hydrogen Chloride Solvent System,” J. Phys. Chem., 100 (14), 5956-5963 (1996).

71. T.H. Okabe, T.N. Deura, T. Oishi, K. Ono, and D.R. Sadoway, “Electrochemical Deoxidation of Yttrium-Oxygen Solid Solutions,” J. Alloys Comp., 237, 150-154 (1996).

70. R. de Neufville, S.R. Connors, F.R. Field, III, D. Marks, D.R. Sadoway, and R.D. Tabors, “The Electric Car Unplugged,” Technology Review, 99, 30-36 (1996).

69. D.R. Sadoway, “Electrochemical Processing in Nonaqueous Media,” in Proceedings of the International Harald A. Øye Symposium, M. Sørlie, T. Østvold, and R. Huglen, editors, University of Trondheim, Trondheim, 1995, pp. 299-312.

68. D.R. Sadoway, “New Opportunities for Metals Extraction and Waste Treatment by Electrochemical Processing in Molten Salts,” J. Mater. Res., 10, 487-492 (1995).

67. D.R. Sadoway, “New Opportunities for Waste Treatment by Electrochemical Processing in Molten Salts,” in Metals and Materials Waste Reduction, Recovery and Remediation, K.C. Liddell, R.G. Bautista, and R.J. Orth, editors, TMS, Warrendale, PA, 1994, pp. 73-76.

66. J. Hisamoto and D.R. Sadoway, “A Study of the Mechanism of Selenium Electrodeposition from Liquid Hydrogen Chloride,” in Proceedings of the Second International Symposium on Electrochemical Processing of Tailored Materials, PV 93-12, R.A. Alkire, N. Masuko, Y. Ito, D.R. Sadoway, and D.J. Economou, editors, The Electrochemical Society, Pennington, NJ, 1993, pp. 108 116.

65. N.A. Fried, S.L. Schiefelbein, K.G. Rhoads, and D.R. Sadoway, “A New Technique for Electrical Conductivity Measurements in Molten Salts,” in Proc. Internat. Symp. on Molten Salt Chem. and Technol. - 1993, PV 93-9, M.-L. Saboungi and H. Kojima, editors, The Electrochemical Society, Pennington, NJ, 1993, pp. 296-305.

64. D.R. Sadoway, M.F. Rubner, and M.C. Flemings, “MIT’s New Materials Synthesis and Processing Laboratory: a Vehicle for Incorporating Design into the Undergraduate Curriculum,” in Design Education in Metallurgical and Materials Engineering, M.E. Schlesinger and D.E. Mikkola, editors, TMS, Warrendale, PA, 1993, pp. 93-101.

63. D.R. Sadoway, “Synthesis of Advanced Materials by Electrochemical Processing in Nonaqueous Media,” in New Trends and Approaches in Electrochemical Technology, N. Masuko, T. Osaka, and Y. Fukunaka, editors, Kodansha Ltd., Tokyo, 1993, pp. 65-74.

62. J.N. Hryn and D.R. Sadoway, “Cell Testing of Metal Anodes for Aluminum Electrolysis,” Light Metals 1993, S.K. Das, editor, TMS, Warrendale PA, 1993, pp. 475-483.

61. K.B. Kim and D.R. Sadoway, “Electrical Conductivity Measurements of Binary Solutions of Molten Alkaline-earth Fluorides,” J. Electrochem. Soc., 139 (8), 2132-2137 (1992).

60. D.R. Sadoway, “Treatment of Chromate Residue by Direct Electrolysis in Molten Oxides,” Residues and Effluents, Processing and Environmental Considerations, R.G. Reddy, W.P. Imrie, and P.B. Queneau, editors, TMS, Warrendale PA, 1992, pp. 469-473.

59. K.B. Kim and D.R. Sadoway, “Electrical Conductivity Measurements of Molten Alkaline-earth Fluorides,” J. Electrochem. Soc., 139, 1027-1033 (1992).

58. D.R. Sadoway, “Electrochemical Processing of Refractory Metals,” Journal of Metals, 43 (7), 15-19 (1991).

57. D.R. Sadoway, “Metallurgical Electrochemistry: the Interface between Materials Science and Molten Salt Chemistry,” Molten Salt Chemistry and Technology, M. Chemla and D. Devilliers, editors, Mat. Sci. Forum, 73-75, Trans Tech Publications Ltd., Zurich, 1991, pp. 555-560.

56. D.R. Sadoway, “The Generation of Coatings and Thin Films of Refractory Metals by Electrolysis in Nonaqueous Media,” Tungsten and Tungsten Alloys - Recent Advances, A. Crowson and E.S. Chen, editors, TMS, Warrendale PA, 1991, pp. 225-230.

55. D.R. Sadoway, “Metallurgical Electrochemistry in Nonaqueous Media,” Proceedings of the Elliott Symposium on Chemical Process Metallurgy, P.J. Koros and G.R. St. Pierre, editors, ISS, Warrendale PA, 1991, pp. 189-196.

54. D.R. Sadoway, “The Synthesis of Refractory metal Compounds by Electrochemical Processing in Nonaqueous Media,” Refractory Metals: Extraction, Processing and Applications, K.C. Liddell, D.R. Sadoway and R.G. Bautista, editors, TMS, Warrendale PA, 1990, pp. 213-220.

53. K. Kim and D.R. Sadoway, “Electrical Conductivity Measurements of Molten Alkaline Earth Fluorides,” Molten Salts, Proc. Seventh Internat. Symp., PV 90-17, C.A. Hussey, ed., The Electrochemical Society, Pennington NJ, 1990, pp. 174-178.

52. D.R. Sadoway, “A Materials Systems Approach to Selection and Testing of Nonconsumable Anodes for the Hall Cell,” Light Metals 1990, C.A. Bickert, editor, TMS, Warrendale PA, 1990, pp. 403 407.

51. D.R. Sadoway, “Challenges and Opportunities for Nonaqueous Electrochemistry,” editorial commentary, Molten Salts Bulletin, Sels Fondus, No. 40, 1989, pp. 3 7.

50. D.R. Sadoway, “Fused Salt Electrolysis of Refractory Metals,” Refractory Metals: State of the Art 1988, P. Kumar and R.L. Ammon, editors, TMS, Warrendale PA, 1989, pp. 155 165.

49. E.E. Shawki, S.N. Flengas and D.R. Sadoway, “Drop Calorimetry Measurements of the Compounds RbNbCl6, CsNbCl6, KTaCl6, and CsTaCl6,” Can. J. Chem., 67, 1193 1199, 1989.

48. D.R. Sadoway, “Fused Salt Electrolysis of Rare Earth Metals,” Rare Earths, R.G. Bautista and M.M. Wong, editors, TMS, Warrendale PA, 1988, pp. 345 353.

47. L.H. Ng and D.R. Sadoway, “Density Measurements in the Succinonitrile Water System,” Can. J. Chem., 66, 2428 2430, 1988.

46. G.J. Kipouros and D.R. Sadoway, “The Electrodeposition of Improved Molybdenum Coatings from Molten Salts by the Use of Electrolyte Additives,” J. Appl. Electrochem., 18, 823 830, 1988.

45. R.P. Singh and D.R. Sadoway, “Nonelectrolytic Deposition of Metals from Fused Salts,” Electrochemical Technology in Electronics, L.T. Romankiw and T. Osaka, editors, The Electrochemical Society, Proc. Vol. 88 23, Pennington NJ, 1988, pp. 373-374.

44. J.F. Bredt and D.R. Sadoway, “Cyclic Voltammetry in Liquid Hydrogen Chloride,” Electrochemical Technology in Electronics, L.T. Romankiw and T. Osaka, editors, The Electrochemical Society, Proc. Vol. 88 23, Pennington NJ, 1988, pp. 361 372.

43. F.W. Poulsen, N.H. Andersen, K. Clausen, D.R. Sadoway and L.H. Øgendal, “Super Ionic Conduction in Alkali Metal Hexachloro Niobates and Tantalates,” Solid State Ionics, 28 30, 271 275 (1988).

42. C.S. Ritter and D.R. Sadoway, “A Thermochemical Study of the Behavior of Impurities in the Magnetherm Process,” Light Metals 1988, L.G. Boxall, editor, TMS AIME, Warrendale PA, 1987, pp. 799 805.

41. S. Y. Yoon and D.R. Sadoway, “Spectroscopic and Electrochemical Studies of Molten Salt Electrolysis of Aluminum and Magnesium,”  Proceedings of the Joint International Symposium on Molten Salts, G. Mamantov et al., editors, The Electrochemical Society, Proc. Vol. 87 7, Pennington NJ, 1987, pp. 1011 1017.

40. D.R. Sadoway, “Raman Spectroscopic Studies of Fused Salt Electrolysis,” Proc. 31st Internat. Cong. Pure and Appl. Chem., Section 7, Phys. Chem., Sofia, Bulgaria, 1987, pp. 172 179.

39. G.J. Kipouros and D.R. Sadoway, “The Chemistry and Electrochemistry of Magnesium Production,” Advances in Molten Salt Chemistry, Vol. 6, G. Mamantov, C.B. Mamantov and J. Braunstein, editors, Elsevier, Amsterdam, 1987, pp. 127 209.

38. D.R. Sadoway, “Fused Salt Electroplating,” Electrodeposition Technology, Theory and Practice, Proc. Vol. 87 17, L.T. Romankiw and D.R. Turner, editors, The Electrochemical Society, Pennington NJ, 1987, pp. 397 413.

37. J.K. Koziol and D.R. Sadoway, “The Use of Molten Salts as Physical Models for the Study of Solidification in Metals and Semiconductors,” Materials Processing in the Reduced Gravity Environment of Space, Materials Research Society Symposium, Volume 87, R.H. Doremus and P.C. Nordine, editors, Pittsburgh PA, 1987, pp. 173 181.

36. L. H. Ng and D.R. Sadoway, “Phase Separation Kinetics in Immiscible Liquids,” Materials Processing in the Reduced Gravity Environment of Space, Materials Research Society Symposium, Vol. 87, R.H. Doremus and P.C. Nordine, editors, Pittsburgh PA, 1987, pp. 281 283.

35. S. Y. Yoon and D.R. Sadoway, “Spectroelectrochemical Study of Magnesium Electrolysis,” in Light Metals 1987, R.D. Zabreznik, editor, TMS AIME, Warrendale PA, 1987, pp. 851 859.

34. A.D. McLeod, J. M. Lihrmann, J.S. Haggerty, and D.R.  Sadoway, “Selection and Testing of Inert Anode Materials for Hall Cells,” Light Metals 1987, R.D. Zabreznik, editor, TMS AIME, Warrendale PA, 1987, pp. 357 365.

33. M.C. Flemings and D.R. Sadoway, “Approaches to an Integrated Undergraduate Education in Materials Science and Engineering,” Frontiers in Materials Education, Mat. Res. Soc. Symp. Proc., Vol. 66, L.W. Hobbs and G.L. Liedl, editors, Pittsburgh PA, 1986, pp. 3 11.

32. G.J. Kipouros and D.R. Sadoway, “Phase Diagram Studies of the Systems, KCl K3MoCl6 and LiCl K3MoCl6,” Metall. Trans., B, 17B, 231, 1986.

31. A.D. McLeod, J.S. Haggerty, and D.R. Sadoway, “Inert Anode Materials for Hall Cells,” Proceedings of a conversazione on “The Production of Liquid Aluminum,” E. Ozberk, D.W. Macmillan, and R.I.L. Guthrie, editors, TMS CIM, series 25 7, No. 2, 1986, pp. 125 139.

30. S. Y. Yoon, J.H. Flint, G.J. Kipouros, and D.R. Sadoway, “Raman Scattering Studies of Magnesium Electrolysis,” Light Metals 1986, R.E. Miller, editor, TMS AIME, Warrendale PA, 1986, pp. 1009 1012.

29. S. Y. Yoon, Y. Liu, J.H. Flint, G.J. Kipouros, and D.R. Sadoway, “In Situ Raman Spectroscopic Investigation of Melt Chemistry and Electrode Processes in Laboratory scale Aluminum Cells,” Light Metals 1986, R.E. Miller, editor, TMS AIME, Warrendale PA, 1986, pp. 479 482.

28. A.D. McLeod, J.S. Haggerty, and D.R. Sadoway, “Inert Anode Materials for Hall Cells,” Light Metals 1986, R.E. Miller, editor, TMS AIME, Warrendale PA, 1986, pp. 269 273.

27. D.R. Sadoway, “Halide Metallurgy,” Encyclopedia of Materials Science and Engineering, M.B. Bever, editor, Pergamon Press, Oxford, 1986, pp. 2072 2073.

26. D.R. Sadoway, “Electrometallurgy,” Encyclopedia of Materials Science and Engineering, M.B. Bever, editor, Pergamon Press, Oxford, 1986, pp. 1444 1447.

25. G.J. Kipouros, J.H. Flint, and D.R. Sadoway, “Raman Spectroscopic Investigation of Alkali Metal Hexachloro Compounds of Refractory Metals,” Inorg. Chem., 24, 3881, 1985.

24. S. Y. Yoon, J.H. Flint, G.J. Kipouros, and D.R. Sadoway, “Raman Scattering Studies of Molten Salt Electrolysis of Light Metals,” Energy Reduction Techniques in Metal Electrochemical Processes, R.G. Bautista and R. Wesely, editors, TMS AIME, Warrendale PA, 1985, pp. 479 490.

23. R.P. Singh, J.H. Flint, D.R. Sadoway, “Digital Signal Analysis of Molten Salt Electrolysis Cells,” Energy Reduction Techniques in Metal Electrochemical Processes, R.G. Bautista and R. Wesely, editors, TMS AIME, Warrendale PA, 1985, pp. 155 162.

22. A.D. McLeod, J.S. Haggerty, and D.R. Sadoway, “Inert Electrodes for Aluminum Electrolysis Cells,” Energy Reduction Techniques in Metal Electrochemical Processes, R.G. Bautista and R. Wesely, editors, TMS AIME, Warrendale PA, 1985, pp. 453 456.

21. J.K. Koziol and D.R. Sadoway, “Electrolyte Flow Patterns in Molten Salt Electrolysis Cells,” Energy Reduction Techniques in Metal Electrochemical Processes, R.G. Bautista and R. Wesely, editors, TMS AIME, Warrendale PA, 1985, pp. 433 444.

20. G.J. Kipouros and D.R. Sadoway, “Molybdenum Coatings by Molten Salt Electrolysis,” Energy Reduction Techniques in Metal Electrochemical Processes, R.G. Bautista and R. Wesely, editors, TMS AIME, Warrendale PA, 1985, pp. 471 478.

19. G.J. Kipouros and D.R. Sadoway, “Fused Salt Electroplating,” Innovations in Materials Processing, G. Bruggeman and V. Weiss, editors, Plenum Press, New York, 1985, pp. 493 503.

18. A.D. McLeod, J.S. Haggerty, and D.R. Sadoway, “Electrical Resistivities of Monocrystalline and Polycrystalline TiB2” J. Am. Ceram. Soc., 67, 705 (1984).

17. R.P. Singh, J.H. Flint, and D.R. Sadoway, “Digital Signal Analysis of Metal Electroreduction Cells,” Control ‘84, Proc. 1st International Symp. on Automatic Control in Mineral Processing and Process Metallurgy, D.G. George et al., editors, SME/TMS AIME, Warrendale PA, 1984, pp. 319 326.

16. D.R. Sadoway, “Research Opportunities in Fused Salt Electrometallurgy,” Electrochemistry Research Needs for Mineral and Primary Materials Processing, T.J. O’Keefe and J.W. Evans, editors, USBM/NSF, 1983, pp. 163 166.

15. A. Block Bolten and D.R. Sadoway, “On Binary P T Phase Diagrams,” Metall. Trans., B, 14B, 231 (1983).

14. A. Abdelmassih and D.R. Sadoway, “Laser Schlieren Studies of Aqueous Zinc Chloride Electrolysis,” Chloride Electrometallurgy, P.D. Parker, editor, TMS AIME, Warrendale PA, 1983, pp. 43 57.

13. D.R. Sadoway, “The Materials Energy Symbiosis,” Chemtech, 12 (10), 625 (1982).

12. M.H. Sukkar and D.R. Sadoway, “Electrical Conductivity and Thermal Stability Measurements of a Mixed Perovskite Oxide System,” J. Appl. Phys., 53, 3686 (1982).

11. D.R. Sadoway, “Problems and Research Opportunities in Energy Efficient Metallurgical Processes,” Proceedings of the 16th Intersociety Energy Conversion Engineering Conference, H. Yeh and J. Snell, editors, ASME, New York, 1981, pp. 579 582.

10. S.N. Flengas and D.R. Sadoway, “Thermodynamic Treatment of Ternary and Quarternary Fused Salt Systems,” Molten Salts, Proceedings of Third International Symposium, G. Mamantov, M. Blander and G.P. Smith, editors, The Electrochemical Society, Pennington NJ, 1981, pp. 68 94.

9. D.R. Sadoway and S.N. Flengas, “The Thermodynamics of Tantalum/Niobium Separation by Gas solid Reaction in Chloride Systems,” Extractive Metal¬lurgy of Refractory Metals, H.Y. Sohn, O.N. Carlson, and J.T. Smith, editors, TMS AIME, Warrendale PA, 1981, pp. 107 126.

8. G.B. Kenney, D.R. Sadoway, and M.C. Flemings, “An Assessment of the Potential for Magnesium Penetration of the U.S. Automotive Market,” Proc. 37th Ann. World Conf. on Magnesium, International Magnesium Association, Dayton OH, 1980, pp. 14 18.

7. D.R. Sadoway and J. Szekely, “A New Experimental Technique for the Study of Turbulence in Electromagnetically Driven Flows,” Metall. Trans., B., 11B, 334 (1980).

6. D.R. Sadoway, S.N. Flengas and R.G.V. Hancock, “Quantitative determination of tantalum in niobium by neutron activation analysis,” Can. J. Chem., 58, 537 (1980).

5. D.R. Sadoway and S.N. Flengas, “A new process for the separation of tantalum from niobium,” Metall. Trans., B., 11B, 57 (1980).

4. D.R. Sadoway and S.N. Flengas, “Thermodynamic properties of the alkali metal hexachloroniobate and hexachlorotantalate compounds by vapour pressure measurements,” Can. J. Chem., 56, 2538 (1978).

3. D.R. Sadoway and S.N. Flengas, “The synthesis and properties of the hexachloroniobates and hexachlorotantalates of Na, K, Rb, and Cs,” Can. J. Chem., 56, 2013 (1978).

2. D.R. Sadoway and S.N. Flengas, “Vapour pressures of solid and liquid NbCl5 and TaCl5,” Can. J. Chem., 54, 1692 (1976).

1. D.R. Sadoway and S.N. Flengas, “Charge asymmetrical ternary molten salt systems:  theory of dilute solutions,” J. Electrochem. Soc., 122, 515 (1975).

 

 

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