jueves, 22 de junio de 2017


  1. Baker, E. A. (1982). Chemistry and morphology of plant epicuticular waxes. In Linnean Society symposium series.
  2. Barton, D. H. R., & McCombie, S. W. (1975). A new method for the deoxygenation of secondary alcohols. Journal of the Chemical Society, Perkin Transactions 1, (16), 1574–1585.
  3. Biggs, N., Biggs, N. L., Biggs, N. L., & Biggs, N. L. (1974). Algebraic graph theory (Vol. 2). Cambridge university press Cambridge.
  4. Bonchev, D. (1991). Chemical graph theory: introduction and fundamentals (Vol. 1). CRC Press.
  5. Brown, W. H., Iverson, B. L., Anslyn, E. V, Foote, C. S., & Novak, B. M. (2018). Organic Chemistry (8th ed.). Cengage Learning.
  6. Brown, W. H., & Poon, T. (2014). Introduction to Organic Chemistry (5th ed.). Wiley & Sons.
  7. Bruice, P. Y. (2011). Organic Chemistry (8th ed.). Boston: Prentice Hall.
  8. Bruice, P. Y. (2014a). Essential Organic Chemistry (2nd ed.). Pearson.
  9. Bruice, P. Y. (2014b). Organic Chemistry (7th ed.). Pearson.
  10. Bruice, P. Y. (2016). Organic Chemistry (8th ed.). Pearson.
  11. Carey, F. A., & Giuliano, R. M. (2011). Organic Chemistry (8th ed.). McGraw-Hill New York.
  12. Cayley, A. (1874). On the mathematical theory of isomers. Philosophical Magazine, 67(5), 444–446.
  13. Charles, D. (2005). Master Mind: The rise and fall of Fritz Haber, the Nobel laureate who launched the age of chemical warfare.
  14. Clayden, J., Greeves, N., & Warren, S. (2012). Organic Chemistry (2nd ed.). Oxford University Press.
  15. Clemmensen, E. (1913). Reduktion von Ketonen und Aldehyden zu den entsprechenden Kohlenwasserstoffen unter Anwendung von amalgamiertem Zink und Salzsäure. Berichte Der Deutschen Chemischen Gesellschaft, 46(2), 1837–1843.
  16. Cormos, C.-C., Petrescu, L., & Cormos, A.-M. (2014). Assessment of hydrogen production systems based on natural gas conversion with carbon capture and storage. In Proceedings of the 24th European Symposium on Computer Aided Process Engineering–ESCAPE (Vol. 24).
  17. Deo, N. (2017). Graph theory with applications to engineering and computer science. Courier Dover Publications.
  18. Dias, J. R. (1993). Molecular orbital calculations using chemical graph theory (Vol. 19). Springer.
  19. Dubois, J.-L., Zhao, W., Roelant, R. E. A., Keuken, H., Gnot, A., & Paczesniak, J. (2016, December 27). Aviation fuel composition. Google Patents.
  20. Duckett, S. B., Newell, C. L., & Eisenberg, R. (1994). Observation of New Intermediates in Hydrogenation Catalyzed by Wilkinson’s Catalyst, RhCl (PPh3) 3, Using Parahydrogen-Induced Polarization. Journal of the American Chemical Society, 116(23), 10548–10556.
  21. Duckett, S. B., Newell, C. L., & Eisenberg, R. (1997). Observation of New Intermediates in Hydrogenation Catalyzed by Wilkinson’s Catalyst, RhCl (PPh3) 3, Using Parahydrogen-Induced Polarization J. Am. Chem. Soc. 1994, 116, 10548− 10556. Journal of the American Chemical Society, 119(8), 2068.
  22. Favre, H. A., & Powell, W. H. (2013). Nomenclature of organic chemistry: IUPAC recommendations and preferred names 2013. Royal Society of Chemistry.
  23. Fifth, C. R. E. (2005). Ullmann’s Encyclopedia of Industrial Chemistry. Wiley-VCH.
  24. García-Olivares, A., & Turiel, A. (2013). The second half of the fossil fuel age: environmental externalities, net energy and energy security concerns.
  25. Godsil, C., & Royle, G. F. (2013). Algebraic graph theory (Vol. 207). Springer Science & Business Media.
  26. Greenwood, R. E. (1977). 61.18 The Numbers of Isomers of the Alkanes and the Aliphatic Alcohols. The Mathematical Gazette, 61(417), 220–223.
  27. Gutman, I. (2008). The chemical formula CnH2n and its mathematical background. The Teaching of Mathematics, 11(2), 53–61.
  28. Gutman, I., & Popović, L. (1998). Graph representation of organic molecules Cayley’s plerograms vs. his kenograms. Journal of the Chemical Society, Faraday Transactions, 94(7), 857–860.
  29. Haber, F. S. (n.d.). Fritz Haber-Biography.
  30. Hager, T. (2008). The alchemy of air. Harmony Books, New York.
  31. Hager, T. (2009). The alchemy of air: a Jewish genius, a doomed tycoon, and the scientific discovery that fed the world but fueled the rise of Hitler. Broadway Books.
  32. Halpern, J. (1981). Mechanistic aspects of homogeneous catalytic hydrogenation and related processes. Inorganica Chimica Acta, 50, 11–19.
  33. Häussinger, P., Lohmüller, R., & Watson, A. M. (2000). Hydrogen, 1. Properties and Occurrence. Ullmann’s Encyclopedia of Industrial Chemistry. Wiley-VCH Verlag GmbH & Co. KGaA.
  34. Hendey, N. I. (1964). Some observations on Cladosporium resinae as a fuel contaminant and its possible role in the corrosion of aluminium alloy fuel tanks. Transactions of the British Mycological Society, 47(4), 467IN1–475.
  35. Howarth, R. W., Santoro, R., & Ingraffea, A. (2011). Methane and the greenhouse-gas footprint of natural gas from shale formations. Climatic Change, 106(4), 679.
  36. Huber, M. T. (2009). Energizing historical materialism: Fossil fuels, space and the capitalist mode of production. Geoforum, 40(1), 105–115.
  37. Jakubska, A., Przado, D., Steininger, M., Aniol-Kwiatkowska, J., & Kadej, M. (2005). Why do pollinators become“ sluggish”? nectar chemical constituents from Epipactis helleborine(L.) Crantz(orchidaceae). Applied Ecology and Environmental Research, 3(2), 29–38.
  38. Janssen, P. H., & Kirs, M. (2008). Structure of the archaeal community of the rumen. Applied and Environmental Microbiology, 74(12), 3619–3625.
  39. Jenkins, R. W., Moore, C. M., Semelsberger, T. A., Chuck, C. J., Gordon, J. C., & Sutton, A. D. (2016). The Effect of Functional Groups in Bio‐Derived Fuel Candidates. ChemSusChem, 9(9), 922–931.
  40. Kesselmeier, J., & Staudt, M. (1999). Biogenic volatile organic compounds (VOC): an overview on emission, physiology and ecology. Journal of Atmospheric Chemistry, 33(1), 23–88.
  41. Kim, H.-J., Kim, K., Kim, N.-S., & Lee, D.-S. (2000). Determination of floral fragrances of Rosa hybrida using solid-phase trapping-solvent extraction and gas chromatography–mass spectrometry. Journal of Chromatography A, 902(2), 389–404.
  42. Klein, D. (2015). Organic Chemistry (2nd ed.). Wiley.
  43. Latour, B., Mauguin, P., & Teil, G. (1992). A note on socio-technical graphs. Social Studies of Science, 22(1), 33–57.
  44. Laurion, I., Vincent, W. F., MacIntyre, S., Retamal, L., Dupont, C., Francus, P., & Pienitz, R. (2010). Variability in greenhouse gas emissions from permafrost thaw ponds. Limnology and Oceanography, 55(1), 115–133.
  45. Law, J. (2009). Actor network theory and material semiotics. The New Blackwell Companion to Social Theory, 3, 141–158.
  46. Laylin, J. K. (1993). Nobel laureates in chemistry, 1901-1992 (Vol. 1). Chemical Heritage Foundation.
  47. Lichtenstein, A. H. (2014). Dietary trans fatty acids and cardiovascular disease risk: past and present. Current Atherosclerosis Reports, 16(8), 1–7.
  48. Lin, L., Cui, H., Vittayapadung, S., Xiao, Z., Wu, W., Zhang, A., … Li, C. (2014). Synthesis of recyclable hollow Fe/C—SO3H fiber as a catalyst for the production of biodiesel. Environmental Progress & Sustainable Energy, 33(4), 1432–1437.
  49. Martin, E. L. (1942). The clemmensen reduction. Organic Reactions.
  50. McMurry, J. (2012). Organic Chemistry (8th ed.). Belmont, USA: Brooks/Cole.
  51. McMurry, J., Castellion, M. E., & Ballantine, D. S. (2007). General, Organic and Biological chemestry, 5ed. Pearson; Prentice Hall.
  52. Meakin, P., Jesson, J. P., & Tolman, C. A. (1972). Nature of chlorotris (triphenylphosphine) rhodium in solution and its reaction with hydrogen. Journal of the American Chemical Society, 94(9), 3240–3242.
  53. Modak, J. M. (2002). Haber process for ammonia synthesis. Resonance, 7(9), 69–77.
  54. Moreda, W., Perez-Camino, M. C., & Cert, A. (2001). Gas and liquid chromatography of hydrocarbons in edible vegetable oils. Journal of Chromatography A, 936(1), 159–171.
  55. Mozaffarian, D., Katan, M. B., Ascherio, A., Stampfer, M. J., & Willett, W. C. (2006). Trans fatty acids and cardiovascular disease. New England Journal of Medicine, 354(15), 1601–1613.
  56. Nakashima, Y., Birkett, M. A., Pye, B. J., Pickett, J. A., & Powell, W. (2004). The role of semiochemicals in the avoidance of the seven-spot ladybird, Coccinella septempunctata, by the aphid parasitoid, Aphidius ervi. Journal of Chemical Ecology, 30(6), 1103–1116.
  57. Needleman, H. L. (1999). History of lead poisoning in the world. In International Conference on lead Poisoning Prevention and Treatment, Bangalore.
  58. Ono, A., Suzuki, N., & Kamimura, J. (1987). Hydrogenolysis of diaryl and aryl alkyl ketones and carbinols by sodium borohydride and anhydrous aluminum (III) chloride. Synthesis, 1987(8), 736–738.
  59. Ouellette, R. J., & Rawn, J. D. (2015). Principles of organic chemistry (1st ed.). Elsevier.
  60. Paton, R. S., & Goodman, J. M. (2007). Exploration of the accessible chemical space of acyclic alkanes. Journal of Chemical Information and Modeling, 47(6), 2124–2132.
  61. Press, R. J., Santhanam, K. S. V, Miri, M. J., Bailey, A. V, Takacs, G. A., & Wiley, J. (2009). Introduction to hydrogen technology. Chromatographia, 69(9), 1145.
  62. Quilley, S. (2009). Transition skills: Skills for transition to a post-fossil-fuel age. The Handbook of Sustainability Literacy: Skills for a Changing World, 43–50.
  63. Read, R. C. (1987). Polya’s theorem and its progeny. Mathematics Magazine, 60(5), 275–282.
  64. Rouvray, D. H. (1989). The pioneering contributions of Cayley and Sylvester to the mathematical description of chemical structure. Journal of Molecular Structure: THEOCHEM, 185, 1–14.
  65. Schuur, E. A. G., McGuire, A. D., Schädel, C., Grosse, G., Harden, J. W., Hayes, D. J., … Lawrence, D. M. (2015). Climate change and the permafrost carbon feedback. Nature, 520(7546), 171–179.
  66. Solomons, T. W. G., & Fryhle, C. B. (2000). Organic Chemistry (7th ed.). USA: Wiley & Sons.
  67. Solomons, T. W. G., & Fryhle, C. B. (2004). Organic chemistry (8th ed.). USA: Wiley & Sons.
  68. Solomons, T. W. G., & Fryhle, C. B. (2007). Organic Chemistry (9th ed.). USA: Wiley & Sons.
  69. Solomons, T. W. G., & Fryhle, C. B. (2011). Organic Chemistry (10th ed.). USA: Wiley & Sons.
  70. Solomons, T. W. G., Fryhle, C. B., & Snyder, S. A. (2014). Organic chemistry (11th ed.). USA: Wiley & Sons.
  71. Sury, B. (2014). Pólya’s one theorem with 100 pages of applications. Resonance, 19(4), 338–346.
  72. Thom, C., Gilley, D. C., Hooper, J., & Esch, H. E. (2007). The scent of the waggle dance. PLoS Biol, 5(9), e228.
  73. Trinajstic, N. (1992). Chemical graph theory. CRC press.
  74. Trinajstić, N. (2016). Selected Theorems in Chemical Graph Theory. Croatica Chemica Acta, 89(4), 1–3.
  75. Vollhardt, P., & Schore, N. (2014). Organic Chemistry Structure and Function (7th ed.). Freeman.
  76. Wade, L. G. (2009). Organic chemistry (7th ed.). USA: Prentice Hall.
  77. Wade, L. G. (2013). Organic Chemistry (8th ed.). Pearson.
  78. Walsham, G. (1997). Actor-network theory and IS research: current status and future prospects. In Information systems and qualitative research (pp. 466–480). Springer.
  79. Walter, K. M., Zimov, S. A., Chanton, J. P., Verbyla, D., & Chapin, F. S. (2006). Methane bubbling from Siberian thaw lakes as a positive feedback to climate warming. Nature, 443(7107), 71–75.
  80. Webster, R. L., Evans, D. J., Rawson, P. M., Mitrevski, B. S., & Marriott, P. J. (2013). Oxidation of neat synthetic paraffinic kerosene fuel and fuel surrogates: Quantitation of dihydrofuranones. Energy & Fuels, 27(2), 889–897.
  81. West, D. B. (2001). Introduction to graph theory (Vol. 2). Prentice hall Upper Saddle River.
  82. Willett, W. C., Stampfer, M. J., Manson, J. E., Colditz, G. A., Speizer, F. E., Rosner, B. A., … Sampson, L. A. (1993). Intake of trans fatty acids and risk of coronary heart disease among women. The Lancet, 341(8845), 581–585.
  83. WILSON, R. (2013). The origins of graph theory are humble, even frivolous. Whereas many branches of. Combinatorics: Ancient & Modern, 51.
  84. Yamamura, S., Toda, M., & Hirata, Y. (1973). Modified Clemmensen Reduction: Cholestane. Organic Syntheses, 86.

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