Daniel Ginosar, Ph.D.https://bios.inl.gov/Lists/Researcher/DisplayOverrideForm.aspx?ID=170Daniel Ginosar, Ph.D. Dr. Daniel M. Ginosar has been employed at Idaho National Laboratory since 1993 and is currently a Distinguished Staff Scientist in the Chemical Separations Department. He received his bachelor’s in chemical engineering from University of California at Davis and his doctorate in chemical engineering from the University of Kansas. Dr. Ginosar serves as the Science Operations Manager for the Critical Materials Institute and is the capability expert for the “Development and Evaluation of Catalysts for Harsh Environments” node of the Department of Energy’s HydroGEN Advanced Water Splitting Materials Energy Materials Network. He has been part of the Critical Materials Institute since it became operational in 2013, and his work for CMI, as Deputy Lead of the Driving Reuse and Recycling Focus Area and now as Science Operations Manager, has given him a deep insight into potential solutions for the critical minerals and materials supply chain. His research has focused on recovery of critical materials from electronic waste and development of processes for producing low carbon-footprint fuels. Recent projects have focused on the development of supercritical fluid separation systems; solid acid alkylation coupled with supercritical fluid catalyst regeneration; biodiesel production from the conversion of waste vegetable oils and fats using a solid catalyst/supercritical fluid process; catalysts for thermochemical water splitting cycles to produce hydrogen; and hydrogenation of carbon oxides to produce liquid fuels. Dr. Ginosar has authored 41 peer-reviewed publications, seven book chapters, 31 U.S. and international patents, and has won numerous national and international awards including an R&D 100 in 2010. <div class="ExternalClassF509A40E34FF4315B190F9798FD5E880"><p>​Ph.D., Chemical Engineering - University of Kansas</p><p>B.S., Chemical Engineering - University of California, Davis<br></p></div><div class="ExternalClassA6619B5A2E8F4303832366D607750C7A"><div>American Chemical Society<br></div><div>American Institute of Chemical Engineers</div><div>North American Catalysis Society</div><div>Western States Chapter North American Catalysis Society</div><div>Tau Beta Pi National Engineering Honor Society</div><div>Phi Kappa Phi National Honor Society</div><div><div>Technical Reviewer for technical journals, scientific journals, and state and national government funding agencies</div><br></div><div><br> </div><div><br> </div></div><div class="ExternalClass14DE053E81A84D2980BF5884CDCB3F1F"><p><strong><span aria-hidden="true"></span>Selected Publications</strong></p><p>J.R. Klaehn, C.J. Orme, D.M. Ginosar, “Separation of Isoprene from Biologically-Derived Gas Streams", Separation Science and Technology, 2022 ASAP https://doi.org/10.1080/01496395.2022.2050756. <br></p><p><br></p><p>C. Stetson, D. Prodius, H. Lee, C. Orme, B. White, H. Rollins, D. Ginosar, I.C. Nlebedim, Aaron D. Wilson. “Solvent-Driven Fractional Precipitation for Atom-Efficient Separation of Metal Salts from Permanent Magnet Leachates", Science Advances, in review, 2022. </p><p><br></p><p>Y. Fujita, S.K. McCall and D.M. Ginosar, “Recycling rare earths: Perspectives and recent advances", MRS Bulletin, 47, 2022. doi:10.1557/s43577-022-00301-w. </p><p><br></p><p>N. Afroz Chowdhury, I.C. Nlebedim, D.M. Ginosar, C. Handwerker, H. Jin, “Value Recovery Pathways for Rare Earth Elements and NdFeB Magnets from End-of-Life Products", Rare Earth Industry Status and Prospects, Springer Nature Switzerland, Yellapu V Murty, Jack Lifton, Marry Anne Alvin, Eds. In press 2022. </p><p><br></p><p>Sun, K. D., Ginosar, D. M., He, T., Zhang, Y. L., Fan, M. H., Chen, R. P. "Progress in Nonoxidative Dehydroaromatization of Methane in the Last 6 Years." Industrial & Engineering Chemistry Research 57(6): 1768-1789, 2018.</p><p><br></p><p>D.M. Ginosar, F.A. Agblevor, L.M. Petkovic, D.T. Newby, J.M. Moses, “Bio-oil separation and stabilization by near-critical propane fractionation," Division of Energy and Fuels Preprint Paper 46, 252nd American Chemical Society National Meeting, Philadelphia, PA, August 21-25, 2016.<br></p><p><br></p><p>L.M. Petkovic, D.M. Ginosar, C.M. Hrbac, S. Lwin, Fractionation of bio-oils using supercritical carbon dioxide," Division of Energy and Fuels Preprint Paper 47, 252nd American Chemical Society National Meeting, Philadelphia, PA, August 21-25, 2016.<br><br></p><p>L.M. Petkovic, D. M. Ginosar, "Comparison of two preparation methods on catalytic activity and selectivity of Ru-Mo/HZSM5 for methane dehydroaromatization," <em>Journal of Fuels</em>, Vol. 2014 (2014) Article ID 364107, 7 pages.</p><p> </p><p>McGuire, N.E., Kondamudi, N., Petkovic, L.M., Ginosar, D.M., "Effect of lanthanide promoters on zirconia-based isosynthesis catalysts prepared by surfactant-assisted coprecipitation," <em>Applied Catalysis A-General, </em>429, 59-66, 2012.</p><p> <br></p><p style="text-align:justify;">D.M. Ginosar, H.W. Rollins, L.M. Petkovic, K.C. Burch, M.J. Rush, "High-temperature sulfuric acid decomposition over complex metal oxide catalysts," <em>International Journal of Hydrogen Energy</em>, 34, 4065-4073, 2009.</p><p style="text-align:justify;"> </p><p>S.N. Rashkeev, D.M. Ginosar, L.M. Petkovic, H.H. Farrell, "Catalytic activity of supported metal particles for sulfuric acid decomposition reaction," <em>Catalysis Today</em>, 139 (2009) 291–298.</p><p> </p><p>L.M. Petkovic, D.M. Ginosar, H.W. Rollins, K.C. Burch, P.J. Pinhero, H.H. Farrell, "Pt/TiO2 (Rutile) Catalysts for sulfuric acid decomposition in sulfur-based thermochemical water-splitting cycles," <em>Applied Catalysis A: General</em>, 338 (2008) 27–36.</p><p> </p><p>D.M. Ginosar, D.N. Thompson, K.C. Burch, "Sustainable solid catalyst alkylation of commercial olefins by regeneration with supercritical isobutene," <em>Industrial and Engineering Chemistry Research</em>, 45, pp. 567-577, 2006.</p><p> </p><p><strong>Publications</strong></p><p>Bennion, E.P., Ginosar, D.M., Moses, J., Agblevor, F., Quinn, J.C., “Lifecycle Assessment of Microalgae to Biofuel: Thermochemical Processing through Hydrothermal Liquefaction or Pyrolysis,” Applied Energy, 154, (2015) 1062-1071.</p><p> </p><p>L.M. Petkovic, D. M. Ginosar, “Comparison of two preparation methods on catalytic activity and selectivity of Ru-Mo/HZSM5 for methane dehydroaromatization,” Journal of Fuels, Vol. 2014 (2014) Article ID 364107.</p><p> </p><p>L.M. Petkovic, D.M. Ginosar, “Synthesis of isobutene and isobutane from synthesis gas. A literature review since 1992,” Current Catalysis, 1 (2012) 52–57.</p><p> </p><p>McGuire, N.E., Kondamudi, N., Petkovic, L.M., Ginosar, D.M., Effect of lanthanide promoters on zirconia-based isosynthesis catalysts prepared by surfactant-assisted coprecipitation, Applied Catalysis A-General, 429, 59-66, 2012.</p><p> </p><p>L.M. Petkovic, D.M. Ginosar, “Direct production of hydrogen from hydrocarbons. Review of recent U.S. patents,” Recent Patents on Chemical Engineering, 5, 2-10, 2012.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, D.P. Guillen, Thermal stability of cyclopentane as an organic rankine cycle working fluid, Energy and Fuels, 25, 4138-4144, 2011.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, K.C. Burch, Commercial activated carbon for the catalytic production of hydrogen via the sulfur-iodine thermochemical water splitting cycle, International Journal of Hydrogen Energy, 36, 8908-8914, 2011.</p><p> </p><p>D. M. Ginosar, L.M. Petkovic, K.C. Burch, S.Rashkeev, H.W. Rollins, H.H. Farrell, “SO3 decomposition catalysts for the production of sulfur dioxide and oxygen for sulfur based thermochemical water splitting cycles.” Sulfur Dioxide: Properties, Applications and Hazards, B.W. Compton, Editor, Nova Scientific Publishing, New York, NY. 2011.</p><p> </p><p>D.M. Ginosar, H.W. Rollins, L.M. Petkovic, K.C. Burch, M.J. Rush, “High-temperature sulfuric acid decomposition over complex metal oxide catalysts” International Journal of Hydrogen Energy, 34, 4065-4073, 2009.</p><p> </p><p>L.M. Petkovic, S.N. Rashkeev, D. M. Ginosar, “Ethanol oxidation on metal oxide supported platinum catalysts,”  Catalysis Today, 147, 107–114, 2009.</p><p> </p><p>LM Petkovic, DM Ginosar, HW Rollins, KC Burch, C Deiana, HS Silva, MF Sardella, D Granados. “Activated Carbon Catalysts for the Production of Hydrogen via the Sulfur-Iodine Thermochemical Water Splitting Cycle” International Journal of Hydrogen Energy, 34, 4057-4064, 2009.</p><p> </p><p>S.N. Rashkeev, D.M. Ginosar, L.M. Petkovic, H.H. Farrell, “Catalytic activity of supported metal particles for sulfuric acid decomposition reaction” Catalysis Today, 139 (2009) 291–298.</p><p> </p><p>L.M. Petkovic, D.M. Ginosar, H.W. Rollins, K.C. Burch, P.J. Pinhero, H.H. Farrell, “Pt/TiO2 (Rutile) Catalysts for Sulfuric Acid Decomposition in Sulfur-Based Thermochemical Water-Splitting Cycles” Applied Catalysis A: General, 338 (2008) 27–36.</p><p> </p><p>L.M. Petkovic, D.M. Ginosar, D.N. Thompson, K.C. Burch, “Application of supercritical fluids to solid acid catalyst alkylation and regeneration.” in O.I. Ogunsola and I.K. Gamwo (Eds.) Ultraclean Transportation Fuels, American Chemical Society Symposium Series No. 959, Ch. 13, Washington DC, 2007.</p><p> </p><p>L.M. Petkovic, D.M. Ginosar, K.C. Burch, H.W. Rollins, “Direct decomposition of methane to hydrogen on metal-loaded zeolite catalyst.” in O.I. Ogunsola and I.K. Gamwo (Eds.) Ultraclean Transportation Fuels, American Chemical Society Symposium Series No. 959, Ch. 9, Washington DC, 2007.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, A.W. Glenn, K.C. Burch, “Stability of supported platinum sulfuric acid decomposition catalysts for use in thermochemical water splitting cycles.” International Journal of Hydrogen Energy, 32, 482-488, 2007.</p><p> </p><p>J.H. Kwak, Y. Wang, D.M. Ginosar, L.M. Petkovic, “Catalytic Decomposition of Sulfuric Acid on Silicon Carbides for Hydrogen Production by Thermochemical Cycles.” paper FUEL 157, Fuel Chemistry Preprints, 232nd American Chemical Society National Meeting, ACS, 2006.</p><p> </p><p>L. M. Petkovic, H. W. Rollins, D. M. Ginosar, K. C. Burch, “Hybrid heterogeneous catalysts for hydrogenation of carbon dioxide,” paper FUEL 264, Fuel Chemistry Preprints, 232nd American Chemical Society National Meeting, ACS, 2006.</p><p> </p><p>D.M. Ginosar, H.W. Rollins, L.M. Petkovic, K.C. Burch, and T.P. Houghton, “Metal oxide catalysts for sulfur-based thermochemical water splitting cycles.” paper FUEL 158, Fuel Chemistry Preprints, 232nd American Chemical Society National Meeting, ACS, 2006.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, H.W. Rollins, and K.C. Burch, “Sulfuric Acid Decomposition Catalysts and Reaction Considerations for Sulfur-Based Thermochemical Water Splitting Cycles.” paper 182c, AIChE 2006  Spring National Meeting Overall Conference Proceedings. New York, NY: AIChE. 2006.</p><p> </p><p>D.M. Ginosar, D.N. Thompson, K.C. Burch, “Sustainable solid catalyst alkylation of commercial olefins by regeneration with supercritical isobutane,” Industrial and Engineering Chemistry Research, 45, pp. 567-577, 2006.</p><p> </p><p>Ginosar, D.M., Petkovic, L.M., Kyle C. Burch, “Activity and Stability of Sulfuric Acid Decomposition Catalysts for Thermochemical Water Splitting Cycles.” Paper 258d, AIChE 2005 National Meeting Overall Conference Proceedings. New York, NY: AIChE, pp. 7734-7740, 2005.</p><p> </p><p>Lucia M. Petkovic, Daniel M. Ginosar, Kyle C. Burch, and Harry W. Rollins “Direct decomposition of methane to hydrogen on metal loaded zeolite catalyst” paper FUEL 169, Fuel Chemistry Preprints, 230th American Chemical Society National Meeting, ACS, 2005.</p><p> </p><p>Ginosar, D.M., Glenn, A.W., Petkovic, L.M. “Stability of Sulfuric Acid Decomposition Catalysts for Thermochemical Water Splitting Cycles.” Paper 76b, AIChE 2005 Spring National Meeting Overall Conference Proceedings. New York, NY: AIChE, pp. 1619-1624, 2005.</p><p> </p><p>D.N. Thompson, D.M. Ginosar, K.C. Burch, D.J. Zalewski, “Extended Catalyst Longevity via Supercritical Isobutane Regeneration of a Partially Deactivated USY Alkylation Catalyst,” Industrial and Engineering Chemistry Research, 44, pp. 4534-4542, 2005.</p><p> </p><p>L. M. Petkovic, D. M. Ginosar, K. C. Burch, “Supercritical fluid removal of hydrocarbons adsorbed on wide pore zeolite catalysts,” Journal of Catalysis, 234, 328-339, 2005. </p><p> </p><p>B.T. Maxfield, D.M. Ginosar, R.D. McMurtrey, H.W. Rollins and G.M. Shook, “Retention of Fluorocarbons on Sand” Geothermics, 34, pp. 47-60, 2005.</p><p> </p><p>D.N. Thompson, D.M. Ginosar and K.C. Burch, “Regeneration of a Deactivated USY Alkylation Catalyst using Supercritical Isobutane” Applied Catalysis A: General, 279, pp. 109-116, 2005.</p><p> </p><p>L.M. Petkovic, and D.M. Ginosar, “The Effect of Supercritical Isobutane Regeneration on the Nature of Hydrocarbons Deposited on A USY Zeolite Catalyst Utilized for Isobutane/Butene Alkylation” Applied Catalysis A: General, Vol. 275, pp 235-245, 2004.</p><p> </p><p>Ginosar, D.M., Anderson, R.P., Glenn, A.W., 2004, “Catalytic Decomposition of Sulfuric Acid for Thermochemical Water Splitting Processes,” AIChE 2004 Spring National Meeting Overall Conference Proceedings. New York, NY: AIChE, pp. 2682-2683, 2004.</p><p> </p><p>Ginosar, D.M., Anderson, R.P., Glenn, A.W., Stewart, F.F., Lillo, T.M., Glenn, D.F., “Nuclear Heat Driven Thermochemical Water Splitting” Proceedings of the 15th Annual U.S. Hydrogen Conference and Hydrogen Expo, NHA-04-0117, 2004.</p><p> </p><p>Daniel M. Ginosar, David N. Thompson and Kyle Burch, “Recovery of Alkylation Activity in Deactivated USY Catalyst Using Supercritical Fluids: A Comparison of Light Hydrocarbons” Applied Catalysis A: General, Vol. 262, No. 2, pp 223-231, 2004.</p><p> </p><p>Daniel M. Ginosar, Kyle Coates and David N. Thompson, “The Effects of Supercritical Propane on the Alkylation of Toluene with Ethylene over USY and Sulfated Zirconia Catalysts” Industrial and Engineering Chemistry Research, Vol. 41, No. 25, pp. 6537-6545, 2002.</p><p> </p><p>Blake T. Maxfield, Daniel M. Ginosar and Ryan D. McMurtrey, “Evaluation of Fluorocarbon Tracer Retention in Dry and Wet Sand Column Tests” Transaction - Geothermal Research Counsel, Vol. 26, pp. 841-846, 2002.</p><p> </p><p>Marina A. Stanescu, Daniel M. Ginosar, Gregory A. Bala and Raymond P. Anderson, “Biocatalytic Treatment of Organosulfur Compounds in Emulsions in Supercritical Fluids” Fuel Chemistry Preprints, ACS, 47(2), 524-526, 2002.</p><p> </p><p>Daniel M. Ginosar, David N. Thompson, Kyle Coates, and David J. Zalewski, “The Effect of Supercritical Fluids on Solid Acid Catalyst Alkylation” Industrial and Engineering Chemistry Research, Vol. 41, No. 12, pp. 2864-2873, 2002.</p><p> </p><p>David N. Thompson, Daniel M. Ginosar, Kyle Coates, “Supercritical Fluid Regeneration of Deactivated Solid Alkylation Catalyst”, Fuel Chemistry Preprints, ACS, 46(2), 422-425, 2001.</p><p> </p><p>J. Markiewicz, R. McMurtrey and D. Ginosar “Critical Fluid Extraction of DNAPLs from Surfactant Enhanced Aquifer Remediation Effluent Water,” Proceedings of the 5th International Symposium & Exhibition on Environmental Contamination in Central & Eastern Europe, Prague, Czech Republic, 12-14 September 2000.</p><p> </p><p>D. M. Ginosar, W.D. Swank, R.D. McMurtrey, W.J. Carmack, “Flow-Field Studies of the RESS Process”, Proceedings of the 5th International Symposium on Supercritical Fluids, Atlanta, Georgia, April 8-12, 2000.</p><p> </p><p>Bala Subramaniam and Daniel M. Ginosar, Enhancing the Activity of Solid Acid Catalysts with Supercritical Reaction Media: Experiments and Theory, High Pressure Chemical Engineering, Ph. Rudolf von Rohr and Ch. Trepp, Eds., pp. 3-9, Elsevier, Amsterdam, 1996.</p><p> </p><p>D. M. Ginosar and B. Subramaniam, "Olefinic Oligomer and Cosolvent Effects on the Coking and Activity of a Reforming Catalyst in Supercritical Reaction Mixtures", Journal of Catalysis, Vol. 152, pp. 31-41, 1995.</p><p> </p><p>N.R. Soelberg, D.M. Ginosar, G.L. Anderson, and W.K. O'Connor, "Fate of Metals and TRU Surrogates During Arc Melter Vitrification,” Proceedings of the Spectrum '94 Nuclear and Hazardous Waste Management International Topical Meeting, Atlanta, GA, pp. 842-847, August 14-18, 1994.</p><p> </p><p>Daniel M. Ginosar and Bala Subramaniam, "Coking and activity of a reforming catalyst in near-critical and dense supercritical reaction mixtures",  Catalyst Deactivation 1994, Studies in Surface Science and Catalysis, Vol. 88, B. Delmon and G. F. Froment, (Eds.), pp. 327-334, Elsevier Science B.V., Amsterdam, 1994.</p><p> </p><p>Daniel M. Ginosar and Don W. Green, "A Solution of the Convection-Conduction Heat-Transfer Equation in Porous Media by the von Rosenberg Finite-Difference Scheme", Numerical Methods for Partial Differential Equations, Vol. 10, pp. 677-687, 1994.</p><p> </p><p>Daniel M. Ginosar, "Coking and Activity of a Reforming Catalyst in Near-Critical and Dense Supercritical Reaction Mixtures", Ph.D. Dissertation, University of Kansas, 1994.</p><p> </p><p>D. M. Ginosar and B. Subramaniam, "Enzyme Catalyzed Reactions in Supercritical Fluid Solvents," Proceedings of the International Biotechnology Symposium, CHEMCON '91, Madras, India, 1991.</p><p> </p><p>Said Saim, Daniel M. Ginosar and Bala Subramaniam, "Phase and Reaction Equilibria Considerations in the Evaluation and Operation of Supercritical Fluid Reaction Processes" in K. P. Johnston and J. M. L. Penninger (Eds.), Supercritical Fluid Science and Technology, American Chemical Society Symposium Series 406, 301-316, Washington, DC, 1989.</p></div>Advanced Manufacturing and Intelligent Systems;Critical Materials;Efficient Manufacturing;Conversion Interface;Chemical Processing;Advanced Manufacturing Leadershiphttps://bios.inl.gov/BioPhotos/Dan%20Ginosar.jpg<div class="ExternalClass71656E29F141404BA8110B1BCDBCC53C"><div>U.S. Patent 11,261,111 “Methods and systems for treating an aqueous solution," Wilson; Aaron D., Wendt; Daniel S., Orme; Christopher J., Adhikari; Birendra, Ginosar; Daniel M., March 1, 2022. ​</div><div><br></div><div>U.S. Patent 9,815,747 “Syngas conversion to a light alkene and related methods,” D.M. Ginosar and L.M. Petkovic, November 14, 2017.</div><div><br>Brazil Patent P10611048-7 “Production of biodiesel using an expanded gas solvent” D.M. Ginosar; R.V. Fox; L.M. Petkovic, Inventors, July 5, 2016.<br>​<br></div><div>​D.M. Ginosar, D.S. Wendt, L.M. Petkovic, 2014, “Methods for recovering a solvent from a fluid volume and methods of removing at least one compound from a nonpolar solvent,”  Patent 8,747,673, June 10, 2014.</div><div> </div><div>D. M. Ginosar, D.S. Wendt, 2012, “Method for Recovering a Polar Solvent from a Fluid Stream Contaminated with at Least One Polar Impurity,” Patent 8,308,954 B2  November 13, 2012.</div><div> </div><div>Rolling, H.W., Petkovic, L.M., Ginosar, D. M., 2012, “Method of Using Structures Including Catalytic Materials Disposed Within Porous Zeolite Materials to Synthesize Hydrocarbons,” Patent 8,226,909, July 24, 2012.</div><div> </div><div>Rolling, H.W., Petkovic, L.M., Ginosar, D. M.  2011, “Method of Using Structures Including Catalytic Materials Disposed Within Porous Zeolite Materials to Synthesize Hydrocarbons,”  Patent 7,879,749, February 1, 2011.</div><div> </div><div>Ginosar, D.M., Petkovic, L.M., 2010, "Enhancement of alkylation catalysts for improved supercritical fluid regeneration," Patent 7,858,069 B2, December 28, 2010.</div><div> </div><div>Ginosar, D.M., Petkovic, L.M., Thompson, D.N., 2010, "Conversion of crop seed oils to jet fuel and associated methods," Patent 7,718,051 B2, May 18, 2010.</div><div> </div><div>Ginosar, D.M. Fox, R.V., 2010, "Method for removing impurities from an impurity-containing fluid stream," Patent 7,691,270, April 6, 2010.</div><div> <br></div><div>Ginosar, D.M., Thompson, D.N., Anderson, R.P., 2010 "System for reactivating catalysts," Patent 7,670,568 B2, March 2, 2010.</div><div> </div><div>Ginosar, D.M., Petkovic, L.M., 2009, "Enhancement of alkylation catalysts for improved supercritical fluid regeneration," Patent 7,592,282, September 22, 2009.</div><div> </div><div>Rollins, H.W., Petkovic, L.M., Ginosar, D.M., 2009, "Method of fabricating a catalytic structure," Patent 7,592,291, September 22, 2009.</div><div> </div><div>Ginosar, D.M., Fox, R.V., Petkovic, L.M., 2009, "Production of biodiesel using expanded gas solvents," Patent 7,514,575, April 7, 2009.</div><div> </div><div>Ginosar, D.M., Thompson, D.N., Anderson, R.P., 2008, "Method for reactivating solid catalysts and a method for recycling supercritical fluids used to reactivate the catalysts," Patent 7,407,905, August 5, 2008.</div><div> </div><div>McMurtrey, R.D., Ginosar, D.M.,  Burch, J.V., 2007, "Method, Apparatus and System for Controlling Fluid Flow," Patent 7,287,541, October 30, 2007.</div><div> </div><div>Janikowski, S.K., Argyle, M.D., Fox, R.V., Propp, W.A., Toth, W.J., Ginosar, D.M., Allen, C.A., Miller, D.L., 2007, "System Configured for Applying a Modifying Agent to A Non-Equidimensional Substrate," Patent 7,241,340 B2, July 10, 2007.</div><div> </div><div>Ginosar, D.M., Fox, R.V., Janikowski, S.K., 2006, "Method for Destroying Halocarbon Compositions Using A Critical Solvent," Patent 6,984,768 B2, January 10, 2006.</div><div> </div><div>Propp, W.A., Argyle, M.D., Janikowski, S.K., Fox, R.V., Toth, W.J., Ginosar, D.M., Allen, C.A., Miller, D.L., 2005, "System Configured for Applying Multiple Modifying Agent to a Substrate," Patent 6,962,731 B2, November 8, 2005.</div><div> </div><div>Ginosar, D.M., Thompson, D.N., Coates, K., Zalewski, D.J., Fox, R.V., 2005, "Method and Reactivating Solid Catalysts Used in Alkylation Reactions," Canadian Patent CA 2411091 A1, June 14, 2005.</div><div> </div><div>Ginosar, D.M., Thompson, D.N.,  K. Coates, D.J. Zalewski, R.V. Fox, 2005, "Method for Reactivating Solid Catalysts Used in Alkylation Reactions," Patent 6,887,813 B2, May 3, 2005.</div><div> </div><div>Ginosar, D.M.,  Fox, R.V., 2005, "Transesterification of Triglycerides to Alcohol Esters over Solid Catalysts at Supercritical Fluid Conditions," Patent 6,887,283, May 3, 2005.</div><div> </div><div>Propp, W.A.,  Argyle, M.D., Janikowski, S. K., Fox, R.V., Toth, W.J., Ginosar, D.M., Allen, C.A., Miller, D.L., 2003, "System Configured for Applying a Multiple Modifying Agent to a Substrate," Patent 6,652,654, November 25, 2003.</div><div> </div><div>Janikowski, S. K.,  Toth, W.J., Ginosar, D.M., Allen, C.A., Argyle, M.D., Fox, R.V., Propp, W.A., Miller, D.L., 2003, "System Configured for Applying a Modifying Agent to a Non-Equidimension Substrate," Patent 6,623,686 B1, September 23, 2003.</div><div> </div><div>D.M. Ginosar, D.N. Thompson, K. Coates, D.J. Zalewski, and R.V. Fox, 2003, "Method for Reactivating Solid Catalysts Used in Alkylation Reactions," Patent 6,579,821 B1, June 17, 2003.</div><div> </div><div>R.D. McMurtrey, D.M. Ginosar, K.S. Moor, G.M. Shook and D.L. Barker, 2003, "Method and System for Extraction of Chemicals from Groundwater Remediation Effluent Water," Patent 6,511,601 B2, January 28, 2003.</div><div> </div><div>C.A. Allen, M.D. Argyle, R.V. Fox, Daniel M. Ginosar, S. K. Janikowski, D.L. Miller, W.A. Propp, W.J. Toth, 2002, "Method for Modifying Monofilaments, Bundles of Monofilaments, and Fibrous Structural Materials," Patent 6,495,204 B1, December 17, 2002.</div><div> </div><div>McMurtrey, R.D., Ginosar, D.M., Moor, K.S., Shook, G.M., Barker, D.L., Moses, J., 2002, "Apparatus and Method for Extraction of Chemicals from Aquifer Remediation Effluent Water," Patent 6,402,952, June 11, 2002.</div><div> </div><div>Ginosar, D.M., Fox, R.V., Kong, P.C., 2000, "Solid catalyzed isoparaffin alkylation at supercritical fluid and near-supercritical fluid conditions," Patent 6,103,948, August 15, 2000.</div><div> </div><div>Cowan, R.L., Ginosar, D.M., Dunks, G.B.,  2000, "Method of Synthesizing Enriched Decaborane for use in Generating Boron Neutron Capture Therapy Pharmaceuticals," Patent 6,086,837, July 11, 2000.<br></div></div>Distinguished Staff Engineer<div class="ExternalClass92649A9DE4AF4007B57145DE07A79A23"><p>D.M. Ginosar, B. Adhikari1, J.M. Tengco, W. Diao, F.B. Rahman, JR. Monnier, C. Corgnale, “High temperature catalyst development and testing for the hybrid sulfur hydrogen production thermochemical water splitting cycle," North American Catalysis Society, North American Meeting 26, Paper 18812, June 27, 2019.<br></p><p><br></p><p>D.M. Ginosar, L.M. Petkovic, A.M. Gaffney, “Waste plastic conversion to fuels," 2016 Defense Innovation Summit, Austin, TX, November 29-December 1, 2016.</p><p><br></p><p>D.M. Ginosar, F.A. Agblevor, L.M. Petkovic, D.T. Newby, J.M. Moses, “Bio-oil separation and stabilization by near-critical propane fractionation,” Division of Energy and Fuels Paper 46, 252nd American Chemical Society National Meeting, Philadelphia, PA, August 21-25, 2016.</p><p> </p><p>D.M. Ginosar, F.A. Agblevor, L.M. Petkovic, D.T. Newby, J.M. Moses, “Algae derived bio-oil separation by supercritical fluid fractionation,” 2013 American Institute of Chemical Engineers Annual Meeting, San Francisco, CA, November 03-08, 2013.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, F.A. Agblevor, D.T. Newby, J.M. Moses, "Fractionation of Algae Derived Pyrolysis Oil by Supercritical Fluid Extraction," Division of Industrial and Engineering Chemistry Paper 39, American Chemical Society National Meeting, Indianapolis, Indiana, September 8-12, 2013.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic , “Effect of carbon dioxide on zirconia-based catalysts for isosynthesis,” 2012 Idaho Academy of Science Symposium, Idaho Falls, ID, March 23, 2012.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, K.C. Burch, “Activated carbon catalysts for the production of hydrogen via the sulfur-iodine thermochemical cycle,” 22nd North American Catalysis Society Meeting, June 5-10, 2011, Detroit, MI.</p><p> </p><p>D.M. Ginosar, “Application of supercritical fluids research at INL to black wax,” Black Wax Workshop, Vernal, UT, April 14, 2011.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, R.W. Rollins, K.C. Burch, B. Schaefers, “Alkali metal promoted catalysts for the conversion of synthesis gas to mixed alcohols,” AIChE Annual Meeting, November 7-12, 2010, Salt Lake City, UT.</p><p> </p><p>D.M. Ginosar, “If the U.S. has and Energy Roadmap, Where’s the On-Ramp?” 37th Conference on the Physics and Chemistry of Surfaces and Interfaces, Conference Banquet Speaker, January 10-14, 2010, Santa Fe, NM.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, K.C. Burch, “Catalyst Stability for Sulfuric Acid Decomposition as influenced by Platinum Group Metal Composition and Reaction Pressure,” AIChE Annual Meeting, Paper 631b, November 8 – 13, 2009, Nashville, TN.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, H.H. Farrell, K.C. Burch, Y. Wang, S.N. Rashkeev, “Metal Oxide Catalysts for Sulfur-Based Thermochemical Water Splitting Cycles,” Session INOR 443, 237th ACS National Meeting & Exposition, March 22-26, 2009, Salt Lake City, UT.</p><p><br>D.M. Ginosar, L.M. Petkovic, K.C. Burch, S.N. Rashkeev, H.H. Farrell, “Platinum group metal catalysts for hydrogen production via the sulfur based thermochemical water splitting cycles,” 21st North American Catalysis Society Meeting, Paper OC47, San Francisco, CA June 8 - 12, 2009.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, H. H. Farrell, K.C. Burch, “Recent progress in catalyst development for hydrogen production in the sulfur-iodine thermochemical water splitting cycle,” American Institute of Chemical Engineers Annual Meeting, Philadelphia, PA, November 16-21, 2008.</p><p> </p><p>D.M. Ginosar, “Catalyst Research for the Sulfur Based Water Splitting Cycles”, Duke University, Pratt School of Engineering Seminar, November 4, 2008. </p><p> </p><p>D.M. Ginosar, “Catalyst Research for the Sulfur Based Water Splitting Cycles”, Brigham Young University Chemical Engineering Department Seminar, October 23, 2008.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, K.C. Burch, “Activated carbon catalysts for hydrogen production in the sulfur-iodine thermochemical water splitting cycle,” American Institute of Chemical Engineers Annual Meeting, Salt Lake City, UT, November 4-9, 2007. </p><p> </p><p>L.M. Petkovic, D.M. Ginosar*, K.C. Burch, “Titania-supported platinum-group metal catalysts for sulfur-based thermochemical water splitting cycles,” American Institute of Chemical Engineers Annual Meeting, Salt Lake City, UT, November 4-9, 2007.</p><p> </p><p>L.M. Petkovic, D.M. Ginosar*, K.C. Burch, H.W. Rollins, S.N. Rashkeev, H.H. Farrell, “Catalysts for hydrogen production by sulfur-iodine thermochemical water splitting cycle,” American Vacuum Society 54th International Symposium and Exhibition, Seattle, WA, October 14-19, 2007. </p><p> </p><p>D.M. Ginosar, L.M. Petkovic, H.W. Rollins, K.C. Burch, “Catalyst Needs for Thermochemical Hydrogen Production Cycles.” GLOBAL 2007 Advanced Fuel Cycles and Systems, Boise, ID, September 9-1 3, 2007.</p><p> </p><p>D.M. Ginosar, L.M. Petkovic, H.W. Rollins, K.C. Burch, C. Deiana, H.S. Silva, M.F. Sardella, D. Granados, “Activated Carbon Catalysts for the Production of Hydrogen via the Sulfur-Iodine Thermochemical Water Splitting Cycle.” North America Catalysis Society 20th North American Meeting, Houston, TX, June 17-22, 2007.</p><p> </p><p>Daniel M. Ginosar, Harry W. Rollins, Lucia M. Petkovic, and Kyle C. Burch, “Nano-Scale Catalysts for the Production of Methanol-Based Synthetic Fuels.” Paper EM-2.5, Idaho Academy of Science Symposium and Meeting, April 19 - 21, 2007 (Invited).</p><p> </p><p>D.M. Ginosar. “Catalytic studies for hydrogen production by the sulfur-iodine thermochemical water splitting cycle.” INL Science & Technology Vino Rosso Seminar Series, Idaho Falls, ID, March 22, 2007 (Invited).</p><p><br>D.M. Ginosar, L.M. Petkovic, H.W. Rollins, and K.C. Burch, “Platinum Group Metal Catalysts for Sulfur-Based Thermochemical Water Splitting Cycles.” paper 230a, American Institute of Chemical Engineers National Meeting, San Francisco, CA, November 12-17, 2006.</p><p><br>D.M. Ginosar, H.W. Rollins, L.M. Petkovic, K.C. Burch, and T.P. Houghton. “Metal oxide catalysts for sulfur-based thermochemical water splitting cycles” paper FUEL 158, 232nd ACS National Meeting, San Francisco, CA, September 10-14, 2006.</p><p><br>D.M. Ginosar, L.M. Petkovic, H.W. Rollins, and K.C. Burch, “Sulfuric Acid Decomposition Catalysts and Reaction Considerations for Sulfur-Based Thermochemical Water Splitting Cycles.” paper 182c, American Institute of Chemical Engineers National Meeting, Orlando, FL, April 23-27, 2006.</p><p><br>D.M. Ginosar, L.M. Petkovic, K.C. Burch, “Activity and Stability of Sulfuric Acid Decomposition Catalysts for Thermochemical Water Splitting Cycles,” paper 285d, American Institute of Chemical Engineers National Meeting, Cincinnati, OH, October 30-November 4, 2005.</p><p><br>D.M. Ginosar, A. W. Glenn, L.M. Petkovic, and K.C. Burch, “Stability of Sulfuric Acid Decomposition Catalysts for Thermochemical Water Splitting Cycles,” paper 76b, American Institute of Chemical Engineers, National Spring Meeting, Atlanta, GA, April 10-15, 2005.</p><p><br>D. M. Ginosar, A. W. Glenn, L. M. Petkovic, “Sulfuric Acid Decomposition Catalysts for Thermochemical Water Splitting Cycles,” 19th Annual Symposium of the Western States Catalysis Club, Albuquerque, NM, February 25, 2005.</p><p><br>D.M. Ginosar, Anderson, R.P., Glenn, A.W., “Catalytic Decomposition of Sulfuric Acid for Thermochemical Water Splitting Processes,” AIChE 2004 Spring National Meeting, New Orleans, LA, April 25-29, 2004.</p><p><br>D.M. Ginosar, Anderson, R.P., Glenn, A.W., Stewart, F.F., Lillo, T.M., Glenn, D.F., “Nuclear Heat Driven Thermochemical Water Splitting”, 15th Annual U.S. Hydrogen Conference and Hydrogen Expo, Paper NHA-04-0117, Los Angles, CA, April 26-30, 2004.</p><p><br>D.M. Ginosar, L.M. Petkovic, K.C. Burch, D.N. Thompson, “Supercritical Fluid Regeneration of Deactivated Solid Alkylation Catalyst”, American Institute of Chemical Engineers Annual Meeting 2003, paper 520d, San Francisco, CA, November 16-21, 2003.</p><p><br>D.M. Ginosar, L.M. Petkovic, K.C. Burch and D.N. Thompson, “Supercritical Fluid Regeneration of Deactivated Solid Alkylation Catalyst”, 4th DOE National Laboratory Catalysis Conference, paper G-2, Oak Ridge, TN, October 22-24, 2003.</p><p><br>D.M. Ginosar, D.N. Thompson, K.C. Burch, “Supercritical Fluid Regeneration of Deactivated Solid Alkylation Catalyst”, American Institute of Chemical Engineers Annual Meeting 2002, paper 235g, Indianapolis, IN, November 3-8, 2002.</p><p><br>D.M. Ginosar, M.A. Stanescu, G.A. Bala and R.P. Anderson, “Biocatalytic Treatment of Organosulfur Compounds in Emulsions in Supercritical Fluids” 222nd American Chemical Society National Meeting, Division of Fuel Chemistry, Boston, MA, August 18-22, 2002.</p><p><br>D.M. Ginosar, S.K. Janikowski and R.V. Fox, “Reductive Catalytic Dehalogenation Using Hydrogen Donor Solvents at Supercritical Fluid Conditions”, 3rd DOE National Laboratory Catalysis Conference, Richland, WA, May 22-23, 2002.</p><p><br>D.M. Ginosar, D.N. Thompson, K. Coates and D.J. Zalewski, “The Effect of Supercritical Fluids on Solid Acid Catalyst Alkylation”, American Institute of Chemical Engineers Annual Meeting 2001, paper 173g, Reno, NV, November 5-9, 2001.</p><p><br>D.M. Ginosar, D.N. Thompson and K. Coates, “Supercritical Fluid Regeneration of Deactivated Solid Alkylation Catalyst”, 222nd American Chemical Society National Meeting, Division of Fuel Chemistry, paper 46, Chicago, IL, August 26-30, 2001.</p><p><br>M.A. Hauck, D.M. Ginosar, G.A. Bala, R.P. Anderson, “Hemoproteins-catalyzed oxidations of organosulfur compounds in reverse micelles, microemulsions, and emulsions in supercritical fluids”, 222nd American Chemical Society National Meeting, Division of Organic Chemistry, paper 487, Chicago, IL, August 26-30, 2001.</p><p><br>D.M. Ginosar, R.D. McMurtrey, W.D. Swank, T.A. Hyde, K. Coates, H.W. Rollins, “Characterization and Manipulation of the RESS Process for Production of Nano- and Micron-Scale Organic Particles”, 10th International Symposium & Exhibit on Supercritical Fluid Chromatography, Extraction, and Processing, paper L-32, Myrtle Beach, SC, August 19-22, 2001.</p><p><br>D.M. Ginosar, D.N. Thompson and K. Coates, “Sustainable Solid-Acid Isoparaffin Alkylation Using Supercritical Fluids”, American Institute of Chemical Engineers Annual Meeting 2000, paper 340g, Los Angles, CA, November 13-18, 2000.</p><p><br>D.M. Ginosar, R.D. McMurtrey, W.D. Swank, T.A. Hyde, K. Coates, H.W. Rollins, “Characterization and Manipulation of Organic Particles Produced through Rapid Expansion of Supercritical CO2”, American Institute of Chemical Engineers Annual Meeting 2000, paper 118i, Los Angles, CA, November 13-18, 2000.</p><p><br>D.M. Ginosar, D.N. Thompson and K. Coates, “Sustainable Solid-Acid Isoparaffin Alkylation Using Supercritical Fluids”, National Laboratory Catalysis Conference 2000, paper B18, Argonne, Illinois, October 12-13, 2000.</p><p><br>D.M. Ginosar, W.D. Swank, R.D. McMurtrey, W.J. Carmack, “Flow-Field Studies of the RESS Process”, 5th International Symposium on Supercritical Fluids, Atlanta, Georga, April 8-12, 2000.</p><p><br>D. M. Ginosar, David N. Thompson, Kyle Coates, “Heterogeneous Isoparaffin Alkylation at Supercritical Fluid Conditions”, Tri-States Catalysis Club Fall Meeting, September 18, 1999 (invited).</p><p><br>D. M. Ginosar, C. E. Bunker, R. V.  Fox, K. Coates, “Alkylation of Aromatics at Super-Critical Conditions; A Parametric and In Situ Spectroscopic Investigation”, 41st Rocky Mountain Conference on Analytical Chemistry, Denver, Colorado, Paper #347, August 1-5, 1999.</p><p><br>D. M. Ginosar, “Alkylation of Aromatics at Supercritical Fluid Conditions”, DOE Laboratory Catalysis Research Symposium, Albuquerque, New Mexico, February 24-25, 1999.</p><p><br>D. M. Ginosar, “Alkylation of Aromatics at Supercritical Fluid Conditions”, Washington State University, Department of Chemical Engineering Seminar Series, Pullman, Washington, October 26, 1998 (invited).</p><p><br>B. Subramaniam and D.M. Ginosar, "Near-Critical Processing of Fluid-Solid Catalytic Systems", AIChE Annual Meeting, St. Louis, MO, November 1993.</p><p><br>D. M. Ginosar, "Activity Maintenance of a Pt/Al2O3 Catalyst in Subcritical and Supercritical Reaction Mixtures", AIChE Local Meeting, Kansas City, Mo, January 21, 1993.</p><p><br>B. Subramaniam, B.J. McCoy and D.M. Ginosar, "Simulation of Activity Maintenance or Decay in Catalysts:  A Kinetic Model for Formation, Adsorption and Desorption of Coke", Paper No. 58h, AIChE Annual Meeting, Miami Beach, FL, November, 1992.</p><p><br>D.M. Ginosar and B. Subramaniam, "1-Hexene Reaction on a Pt/?Al203 Catalyst:  Some Insights into Coking Chemistry," Paper No. 91c, AIChE Annual Meeting, Los Angeles, CA, November 1991.</p><p><br>S. Saim, D.M. Ginosar and B. Subramaniam, "In Situ Extraction of Coke Compounds from Porous Catalysts with Supercritical Fluid Reaction Media: A Promising Technique for Investigating Chemistry of Coke Formation", 2nd International Symposium on Supercritical Fluids, Boston, MA, May 20-22, 1991.</p><p><br>S. Saim, D.M. Ginosar and B. Subramaniam, "Reactivation of Coked Catalysts at Supercritical Fluid Conditions", Paper No. 46g, AIChE Annual Meeting, San Francisco, CA, November 1989.​</p></div><div class="ExternalClass21333FE413AE40579E281AE9B4A5084B"><div>​INL Lifetime Achievement Award in Inventorship, “20 inventions” 2015</div><div> </div><div>INL Laboratory Director Award, Supercritical Solid Catalyst Biodiesel Process, 2010</div><div><br>Gordon Battelle Prizes for Technology Impact, Supercritical Solid Catalyst Biodiesel Process, 2010 </div><div> </div><div>Platts Global Energy Award of Excellence, Supercritical Solid Catalyst Biodiesel Process, 2010 </div><div> </div><div>Federal Laboratory Consortium Far West Region: Outstanding Technology Development, Supercritical Solid Catalyst Process, 2010 </div><div> </div><div>Idaho Innovation Award, Early-Stage Innovation of the Year, Supercritical/Solid Catalyst Biodiesel Process, 2010</div><div> </div><div>R&D Magazine “Top 100 Innovations in 2010” Supercritical Solid Catalyst Biodiesel Process, 2010</div><div> </div><div>INL Lifetime Achievement Award for Inventorship, 15 inventions,  2010<br> </div><div>INL 2008 Inventor of the Year, 2008<br> </div><div>INL Exceptional Contributions Award for Outstanding Research Innovation and Business Development, 2008</div><div> </div><div>INL Lifetime Achievement Award for Inventorship, 10 inventions, 2006<br> </div><div>INEEL Lifetime Achievement Award in Inventorship, 5 inventions,  2004<br> </div><div>Outstanding Technical Paper, Bechtel Corporation, August 2003</div><div><br>Outstanding Achievement in winning new fossil energy projects, P+ Award,  2002<br> </div><div>Outstanding support of successful EMSP proposal,  P+ Award, October 2002<br> </div><div>Contribution to the Boron Neutron Capture Therapy Program, LEEP, 1997<br> </div><div>Development of the Solid Acid Alkylation Concept, LEEP,  1997</div></div>daniel.ginosar@inl.gov

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