Celaya, A. M. and J. L. Goldfarb, (2014) “Models and Mechanisms to Explore the Global Oxidation Kinetics of Blends of Feed Corn Stover and Illinois No. 6 Coal.” Journal of Thermodynamics and Catalysis, v. 5, pp. 136.
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Larsen, J. W., and C. I. Flores, (2008). Kergoen Chemistry - 5. Anhydride Formation in, Solvent Welling of, and Loss of Organics on Demineralization of Kimmeridge Shales, Fuel Processing Technology, v. 89, DE-j.fuproc.2007,11,019, pp. 314-321.
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Larsen, J. W., and J. Hu, (2006). Kerogen Chemistry. 8. Hydrous Pyrolysis of Rundle Kerogen: Source of the Oxygen in CO2 and Mineral Catalysis, Energy & Fuels, v. 20, DE-ef050237, pp. 278-280.
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Larsen, J. W., R. Ashida, P. Painter, and D. C. Doetschman, (2006). Kerogen Chemistry 9. Removal of Kerogen Radicals and Their Role in Kerogen Anhydride Decomposition. Energy & Fuels, Vo., 20, DE-ef050369n, pp. 1220-1226.
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Ashida, R., P. Painter, and J. W. Larsen, (2005). Kerogen Chemistry 4. Thermal Decarboxylation of Kerogens. Energy & Fuels, v. 19, DE-ef0501086, pp. 1954-1961.
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Glick, D. C., G. D. Mitchell, and A. Davis, (2005). Coal Sample Preservation in Foil Multilaminate Bags, Inter. Jour. Coal Geol., v. 63, pp. 178-189.
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Larsen, J. W., C. Islas-Flores, M. T. Aida, P. Opaprakasit, and P. Painter, (2005). Kerogen Chemistry 2. Low-temperature Anhydride Formation in Kerogens, Energy & Fuels, v. 19, DE-ef0498519, pp. 145-151.
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Larsen, J. W., K. Kidena, R. Ashida, and H. Parikh, (2005). Kerogen Chemistry 3. Shale Elemental Analysis and Clay Dehydroxylation, Energy & Fuels, v. 19, DE-ef050004v, pp. 1699-1703.
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Larsen, J. W., R. Ashida, and D. C. Doetschman, (2005). Kerogen Chemistry 6. Involvement of Native Free Radicals in Kerogen Thermal Deoxygenation, Energy & Fuels, v. 19, DE-ef0501288, pp. 2216-2217.
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Wiltfong, R., S. Mitra-Kirtley, O. C. Mullins, B. Andews, G. Fujisawa, and J. W. Larsen, (2005). Sulfur Speciation in Different Kerogens by XANES Spectroscopy, Energy & Fuels, v. 19, pp. 1871-1976, DE-ef049753n.
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Larsen, J. W., and M. T. Aida, (2004). Kerogen Chemistry 1. Sorption of Water by Type II Kerogens at Room Temperature, Energy & Fuels, v. 18, DE-ef049875f, pp. 1603-1604.
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Karacan, C. O., (2003). An effective method for resolving spatial distribution of adsorption kinetics in heterogeneous porous media: Application for carbon dioxide sequestration in coal, Chemical Engineering Science, v. 58 (20), pp. 4681-93.
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Karacan, C. O., and M. Badger, (2003). Effect of steam injection on pore structure and distribution in coke samples produced by delayed coking, Fuel, v. 82 (8), pp. 909-917.
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Karacan, C., and G. D. Mitchell, (2003). Behavior and effect of different coal microlithotypes during gas transport for carbon dioxide sequestration into coal seams, International Journal of Coal Geology, v. 53 (4), pp. 201-217.
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Scaroni, A. W., A. Davis, and D. C. Glick, (1999). Maintenance of the Coal Sample Bank and Database, Final Report DOE/PC/93051--23 to U.S. Dept. Energy under Contract No. DE-AC22-93PC93051, 192 pp.
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Harris, N. B., K. H. Freeman, R. D. Pancost, T. S. White, G. D. Mitchell, and T. Sandomenico, (1998 December). The Characterization and Origin of Lacustrine Source Rocks of the Pre-Salt Section in the Viodo Area, Congo Basin, Republic of Congo, A Report Prepared for Members of the Congo Basin Consortium. Penna. State Univ., 195 pp.
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Taylor, G. H., M. Teichmuller, A. Davis, C. F. K. Diessel, R. Littke, and P. Robert, (1998). Organic Petrology. Gebruder Borntraeger, Berlin, 720 pp.
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Mitchell, G. D., and A. Davis, (1997). Surface Properties of Photo-Oxidized Bituminous Coals. Final Rep. To U.S. Dep. Energy, Grant No. DE-FG22-93PC93223, 101 pp.
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Inan, S., and A. Davis, (1994). The History of Oil Generation in Pine and Railroad Valleys, Nevada. In: Oil Fields of the Great Basin, Eastern Nevada (R. A. Schalla and E. H. Johnson, eds), Nevada Petroleum Soc., Reno, pp. 57-84.
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Inan, S., and A. Davis, (1994). The History of Oil Generation in Pine and Railroad Valleys, Nevada. In: Oil Fields of the Great Basin, Eastern Nevada (R. A. Schalla and E. H. Johnson, eds), Nevada Petroleum Soc., Reno, pp. 57-84.
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Vorres, K. S., C. W. Kruse, K. A. Nater, D. C. Glick, and A. Davis, (1994). A Perspective on the Status of Coal Research from Shipments of Samples, Preprints American Chemical Society Division of Fuel Chemistry, v. 39, 1-6.
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Artok, L., A. Davis, G. D. Mitchell, and H. H. Schobert, (1993). Swelling pretreatment of coals for improved catalytic temperature-staged liquefaction. Energy & Fuels, v. 7 (1), pp. 67-77.
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Davis, A., and D. C. Glick, (1993). Establishment and Maintenance of a Coal Sample Bank and Data Base, Penna. State Univ. Final Rep. DOE-PC-79997-1 to U.S. Dep. Energy, 276 pp.
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Hower, J. C., J. R. Levine, J. W. Skehan, E. J. Daniels, S. E. Lewis, A. Davis, R. J. Gray, and S. P. Altaner, (1993). Appalachian Anthracites, Organic Geochemistry, v. 20, pp. 619-642.
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Hower, J. C., J. R. Levine, J. W. Skehan, E. J. Daniels, S. E. Lewis, A. Davis, R. J. Gray, and S. P. Altaner, (1993). Appalachian Anthracites, Organic Geochemistry, v. 20, pp. 619-642.
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Inan, S., (1993). The Thermal Maturity and Petroleum Potential of the Mississippian Chainman Formation: Implications for Burial and Thermal Histories of East-Central Nevada. (PhD)
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Zhang, E., P. G. Hatcher, and A. Davis, (1993). Chemical-composition of pseudo-phlobaphinite precursors - implications for the presence of aliphatic biopolymers in vitrinite from coal, Organic Geochemistry, v. 20 (6), pp. 721-34.
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Cody, G. D., (1992). The Macromolecular Geochemistry of Bituminous Vitrain. (PhD)
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Cronauer, D. C., J. T. Joseph, A. Davis, J. C. Quick, and P. T. Luckie, (1992). The Beneficiation of Martin Lake Texas Lignite, Fuel, v. 71, pp. 65-73.
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Karytsas, C. S., (1992). Variation in the Petrological, Mineralogical, and Palynological Characteristics of Some Upper Pennsylvanian Coals from the Northern Appalachian Basin. (PhD)
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Pradier, B., P. Landais, A. Rochdi, and A. Davis, (1992). Chemical Basis of Fluorescence Alteration of Crude Oils and Kerogens-II. Fluorescence and Infrared Micro-spectrometric Analysis of Vitrinite and Liptinite, Organic Geochemistry, v. 18, pp. 241-248.
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Davis, A., G. D. Mitchell, F. J. Derbyshire, R. F. Rathbone, and R. Lin, (1991). Optical Properties of Coals and Liquefaction Residues as Indicators of Reactivity, Fuel, v. 70, pp. 352-360.
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Glick, D. C., and A. Davis, (1991). Operation and composition of the penn state coal sample bank and data-base. Organic Geochemistry, 17, (4), 421-30.
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Kuehn, D. W., and A. Davis, (1991). The Effects of Coalification and Paleoenvironment on Aliphatic and Aromatic CH Contents in the Lower Kittanning Coal Seam, Organic Geochemistry, v. 17 (2), pp. 255-62.
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Zhang, E., (1991). Coalification Patterns of the Pennsylvanian Coal Measures in the Appalachian Foreland Basin, Western and Southcentral Pennsylvania. (MS)
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Energy and Fuels Research Center, (1990). The Penn State Coal Sample Bank and Data Base, 2nd Ed. Penna. State Univ., 61 pp.
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Morrison, J. L., E. G. Williams, A. W. Rose, A. Davis, R. R. Parizek, B. E. Scheetz, and D. W. Strickler, (1990). Predicting the Occurrence of Acid Mine Drainage in the Alleghenian Coal-Bearing Strata of Western Pennsylvania: An Assessment by Simulated Weathering (Leaching) Experiments and Overburden Characterization. In Advances in Coal Geochemistry (L.L. Chyi and C.-L. Chou, eds). Geological Society of America Special Papers, v. 248, pp. 87-99.
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Rathbone, R. F., (1990). The Effects of Depositional Environment on Vitrinite Secondary Fluorescence. (MS)
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Rimmer, S. M., and A. Davis, (1990). Relations Between Ash-Fusion Characteristics and Depositional Environments for an Appalachian Basin Coal Seam. In Recent Advances in Coal Geochemistry (L.L. Chyi and C.-L. Chou, eds), Geological Society of America Special Papers, v. 248, pp. 63-72.
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Davis, A., R. F. Rathbone, R. Lin, and J. C. Quick, (1990). Observations Concerning the Nature of Maceral Fluorescence Alteration with Time. In Advances in Organic Geochemistry 1989 (B. Durand and F. Behar, eds), Org. Geochem., v. 16, pp. 897-906.
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Davis, A., R. Lin, F. J. Derbyshire, and D. F. Bensley, (1989). Chemical and Technological Significance of the Fluorescence of Coal Macerals: Compte Rendu 11e Congr. Internat. Strat. Geol. Carbonif., Beijing (1987), v. 5, pp. 124-137.
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Levine, J. R., and A. Davis, (1989). Reflectance Anisotropy of Upper Carboniferous Coals in the Appalachian Foreland Basin, Pennsylvania, U.S.A. International Journal of Coal Geology, v. 13, pp. 341-373; v. 16, pp. 201-204.
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White, T. S., (1989). A Study of the Distribution of Pyrite in the Upper and Lower Clarion Coal Seams and its Preparation Plant Products. (MS)
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Bensley, D. F., and A. Davis, (1988). The Use of Light-Emitting Diodes as Fluorescence Standards and the Fluorescence Intensity of Macerals. Org. Geochem., v. 12, pp. 345-349.
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Davis, A., (1988). Establishment and Maintenance of a Coal Sample Bank and Data Base. Penna. State Univ. Final Rep. DOE-PC-70760-F to U.S. Dep. Energy, 43 pp.
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Derbyshire, F. J., M. T. Terrer, A. Davis, and R. Lin, (1988). Dry catalytic liquefaction of a subbituminous coal - structural inferences, Fuel, v. 67 (8), pp. 1029-1035.
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Energy and Fuels Research Center, (1988). The Penn State Coal Sample Bank and Data Base. Penna. State Univ., 83 pp.
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Lin, R., (1988). The Chemistry of Coal Maceral Fluorescence: With Special Reference to the Huminite/Vitrinite Group. (PhD)
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Lin, R., and A. Davis, (1988). A fluorogeochemical model for coal macerals, Organic Geochemistry, v. 12 (4), pp. 363-74.
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Lin, R., and A. Davis, (1988). The Chemistry of Coal Maceral Fluorescence with Special Reference to the Huminite/ Vitrinite Group, Penna. State Univ. Spec. Res. Rep. 122.
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