govindarajan k.r (reg. no....

216

REFERENCES

1. Aalten, H. L., Van Koten, G., Grove, D. M., Kuilman, T., Piekstra, O.G. Hulshof, L. A. and Sheldon, R. A. “The copper catalysed reactionof sodium methoxide with aryl bromides. A mechanistic study leadingto a facile synthesis of anisole derivatives“, Tetrahedron, Vol. 45,pp. 5565, 1989.

2. Abdelouahab, B., Thierry, T. and Patrice, V. “An Electron transferapproach to the preparation of highly functionalized anthraquinones”,Molecules, Vol. 10, pp. 289-294, 2005.

3. Ajay, B. N., Jesser, E. A. and Govindaswamy, S. “General, Mild andIntermolecular Ullmann type synthesis of diaryl and Alkyl aryl ethers,catalyzed by Diols : Copper complex”, Journal of Organic Chemistry,Vol. 74 , No. 10, pp. 3675-3679, 2009.

4. Alicia, C., Amanda, E. K., Teodor, P. M., Costas, S., Stahl, S. andXavi, R. “Direct observation of CuI/CuIII redox steps relevant toUllmann-type coupling reactions”, Chemical Science, Vol. 1,pp. 326-330, 2010.

5. Alvarez-Insua, A. S., Conde, S. and Correl, C. “Bromothiophenereactions to a novel rearrangement in the Zinc and acetic acidreduction”, Journal of Heterocyclic Chemistry, Vol. 19, pp. 713-716,1982.

6. Amanda J. Hickman and Melanie S. Sanford, “High-valentorganometallic copper and palladium in catalysis", Nature, Vol. 484,pp. 177-185, 2012.

7. Amatore. C., Pinson, J., Saveant, J. M. and Thiebault, A. “Electron-transfer-induced reactions. Termination steps and efficiency of thechain process in SRN1 aromatic substitutions”, J. Am. Chem. Soc.,Vol. 103, No. 23, pp. 6930-6937.1981.

8. Amatore, C., Oturan, M. A., Pinson, J., Saveant, J. M. and

Thiebault, A.” Nucleophile and aryl radical reactivity in SRN1

aromatic nucleophilic substitution reactions. Absolute and relative

electrochemical determination”, J. Am. Chem. Soc., Vol. 107, No. 12,

pp. 3451-3457. 1985.

217

9. Anamaria, I. and Mot, A. C. “Exploring the possibility of high-valentcopper in models of copper proteins with a three-histidine copper-binding motif”, Central European Journal of Chemistry, Vol. 10,Issue 5, pp. 1527-1533, 2012.

10. Andrieux, C. P., Blocman, C., Jean-Michel Dumas-Bouchiat and Jean-Michel Saveant, “Heterogeneous and Homogeneous Electron Transfersto Aromatic Halides - An Electrochemical Redox Catalysis Study inthe Halobenzene and Halopyridine Series”, J. Am. Chem. Soc., Vol.101, No. 13, pp. 3431-3441, 1979.

11. Anthony J. Bebbington, “Process for the production of Saccharine”,United States Patent (USP), 4,145,349, assigned to CommercialOrganics Limited , Montreal, Canada, March 20, 1979.

12. Antilla, J. C. and Buchwald, S. L. “Copper-Catalyzed Coupling ofArylboronic Acids and Amines”, Organic Letters, Vol. 3, pp. 2077, 2001.

13. Antilla, J. C., Klapars, A. and Buchwald, S. L. “The copper catalyzedN-arylation of indoles”, J. Am. Chem. Soc., Vol.124, pp.11684-11688,2002.

14. Antilla, J. C., Klapars, A., Huang, X. and Buchwald, S. L. “A Generaland efficient copper catalyst for the amidation of Aryl halides and theN-arylation of Nitrogen heterocycles”, J. Am. Chem. Soc., Vol. 123,pp. 7727-7729, 2001.

15. Arnold, W. “The chemistry of heterocyclic compounds” a series ofmonographs, Inter science Publishers, INC., New York, “Thiopheneand its derivatives”, pp. 505, 1952.

16. Bacon, R. G. R. and Hill, H. A. Q, “Copper-promoted reactions inaromatic chemistry, Q. Rev. Chem. Soc., Vol. 19, pp. 95-125, 1965.

17. Bacon, R. G. R and Karim, A. “The chemistry of organocoppercompounds”, J. Chem. Soc. Perkin Trans., Vol. 1, pp. 272, 1973.

18. Barnes, E. O., Wang, Y., Limon-Petersen, J. G. and Belding, S. R.“Voltammetry in the absence of excess supporting electrolyte – ECE-DISP1 reactions: The electrochemical reduction of 2-nitrobromobenzene in acetonitrile solvent”, Electrochimica Acta,Vol. 54, Issue 28, pp 7236–7241, 2011.

19. Barton, D. H. R. and Finel, J. P. “Bismuth (V) reagents in organicsynthesis”, Pure. Appl. Chem., Vol. 59, pp. 937-946. 1987.

218

20. Barton, D. H. R., Finel, J. P. and Khamsi, J. “ Copper salt catalysis ofN-phenylation of amines by trivalent organobismuth compounds”,Tetrahedron Letters, Vol. 28, pp 887-890, 1987.

21. Barton, D. H. R., Yadav-Bhatnagar, N., Finel, J. P. and Khamsi, J.“Phenylation of aromatric and aliphatic amines phenyllead triacetateusing copper catalysts”, Tetrahedron Letters, Vol. 28, pp. 3111-3114,1987.

22. Bennger, F. M., Brierley, A., Drexler, M., Gindler, E. M. andLumpkin, C. C. “Diaryliodonium salts II. The phenylation of organicand inorganic bases”, J. Am. Chem. Soc., Vol. 75, pp. 2708-2712,1953.

23. Bistri, O., Corrca, A. and Bolm, C. “Iron catalyzed C-O crosscouplings of phenols with aryl halides”, Angew. Chem. Int. Ed.,Vol. 47, pp. 586-588, 2008.

24. Bogdal, D., Pielichowski, J. and Boron “New synthesis method ofaromatic ethers under microwave irradiation in dry media”, SyntheticCommunication, Vol. 28, pp. 3029-3039, 1998.

25. Bowman, W. R., Heaney, H. and Smith, P. H. G. “Intramoleculararomatic substitution (SRN1) reactions, use of entrainment for thepreparations of benzothiazoles”, Tetrahedron Letters, Vol.23, No. 48,pp. 5093-5096, 1982.

26. Bowman, W. R., Heany, H. and Smith, P. H. G. “Copper (I) catalyzedaromatic nucleophilic substitution - a mechanistic and syntheticcomparison with the SRN1 reaction”, Tetrahedron Letters, Vol. 25,pp. 5821-5824, 1984.

27. Bringmann, G. and Walter, R. “The directed synthesis of biarylcompounds: modern concepts and strategies”, Angew. Chem. Int. Ed.,Vol. 27, pp. 977, 1990.

28. Buckingam, J. B. “In Dictionary of Natural products”, CRC press,Vol. 1, 1994.

29. Buckwald, S. L. and Bolm, C. “The role of metal contaminations incatalysis with FeCl3”, Angew. Chem. Int. Ed., Vol. 48, pp. 5586-5587,2009.

219

30. Buegelmans, R., Bois-Choussy, M. and Boudet, B. “New and directarylation and hetero arylation of beta dicarbonyl compounds by SRN1”,Tetrahedron, Vol. 38, No. 23, pp. 3479-3483, 1982.

31. Bunnet, J. F. “Some novel concepts in aromatic substitution”,Tetrahedron, Vol. 49, pp. 4477-4484, 1983.

32. Bunnett, J. F. “Aromatic substitution by SRN1 mechanism”, Acc.Chem. Res., Vol. 11, No. 11, pp. 413-420, 1978.

33. Bunnett, J. F. and Bernhard, F. G. “Reactions of halothiophenes withAcetone enolate and amide ions”, Heterocycles, Vol. 5, pp. 377-396,1976.

34. Bunnett, J. F. and Rowland E. Zahler, “Aromatic Nucleophilicsubstitution”, Chemical Reviews, Vol.49, No. 2, pp. 273- 412, 1951.

35. Bunnett, J. F. “The remarkable reactivity of aryl halides withnucleophiles”, J. Chem. Educ., Vol. 51, No. 5, pp.312, 1974.

36. Buranaprasertsuk, P., Chang, J. W. W., Chan, P. W. H. and Chavasiri, W.“Copper-catalyzed Ullmann coupling under ligand and additive freeconditions. Part II: S-arylation of thiols with aryl iodides”, TetrahedronLetters, Vol. 49, pp. 2023-2025, 2009.

37. Cai, Q., Zou, B. and Ma, D. “Mild Ullmann - Type Biaryl EtherFormation Reaction by Combination of ortho-Substituent and LigandEffects”, Angew. Chem. Int. Ed., Vol. 45, No. 8, pp. 1276-1279, 2006.

38. Carey and Sundburg, “Advanced Organic Chemistry, Part-B: ReactionSynthesis”, 4th Edition- Lower Academic / Plenum Publishers, NewYork, pp.723, 2001.

39. Casitas, A., King, A. E., Parella, T., Costas, M., Stahl, S. S. andRibas. X. “Direct observation of CuI/CuIII redox steps relevant toUllmann-type coupling reactions”, Chem. Sci., Vol. 1, pp. 326-336,2010.

40. Chamber, C. and Hiliday, A. K. “Modern Inorganic Chemistry”,Rhadon Butterworths, pp. 408-419, 1975.

41. Chan, D. M. T., Monaco, K. L., Wang, R. P. and Winters, M. P. “NewN-and O- arylation with phenyl boronic acids and cupric acetates”,Tetrahedron Letters, Vol. 39, pp. 2933-2936, 1998.

220

42. Chandrasekar, S., Sultana, S. S., Yaragorla, S. R. and Reddy, N. R.“Copper-Catalyzed N-Arylation of Amines/Amides in Poly(ethyleneglycol) as Recyclable Solvent Medium“, Synthesis, Vol.5, pp. 839-842, 2006.

43. Chang, J. W. W., Sheena, C., Shiya, M., Pongchart, B, Warinthorn, Cand Philip Wai Hong Chan, “Copper-catalyzed Ullmann couplingunder ligand- and additive- free conditions. Part 1: O-Arylation ofphenols with aryl halides”, Tetrahedron Letters, Vol. 49, pp. 2018-2022,2008.

44. Chao-Jun Li and Tak-Hang Chan, “Comprehensive Organic reactionsin aqueous media”, Second edition, Wiley Interscience, pp. 163-164,2007.

45. Chauhan, S. M. S., Jatin, N., Kumar, A. and Srinivas, K. A. “Copper(I) Chloride Catalyzed Synthesis of Diaryl Ethers in Ionic LiquidsUnder Mild Conditions“, Synthetic Communication, Vol. 33,pp. 3607-3614, 2003.

46. Chavan, S. S., Sawant, S. K., Sawant, V. A. and Lahiri, G. K. “Mixed-ligand complexes of copper (I) with Schiff base andtriphenylphosphine: Effective catalysts for the amination of arylhalide”, Inorganic Chemistry Communications, Vol. 14, Issue 9,pp. 1373-1376, 2011.

47. Chengde Wu, Ming, F. C., Fiona, S., Raju, B., Ilya, O., Seymour, M.,Karin, M. K., Tummy, B., Timothy, P. K. and Richard, A. F. D.“Discovery of TBC11251,a potent, long acting, orally activeendothelin receptor - A selective antagonist”, J. Med. Chem, Vol. 40,pp. 1690-1697, 1997.

48. Cirigottis, K. A., Ritchie, E. and Taylor, W. C. “Studies on the Hurtleyreaction”, Australian Journal of Chemistry, Vol. 27, No. 10,pp. 2209-2228, 1974.

49. Cohen, T. “The production of Organocopper Intermediates fromradicals in the reactions of Aromatic Halides and diazonium ions withCuprous Benzoate. New synthetic methods for Aryl Benzoates”, J.Am. Chem. Soc., Vol. 88, pp.4521, 1966.

50. Cohen, T. and Cristea, I. “Kinetics and mechanisms of Copper (I)induced homogeneous Ullmann coupling of ortho-bromonitrobenzene”, Journal of American Chemical Society, Vol. 98, pp. 748-753,1976.

221

51. Cohen, T. and Cristea, I. “Copper (I) induced reductivedehalogenation, hydrolysis or coupling of some aryl and vinyl halidesat room temperature”, J. Org. Chem. Vol. 40, pp. 3649-3651, 1975.

52. Cohen, T. and Tirpak, J. G. “Rapid, room-temperature Ullmann typecoupling and ammonolyses of activated aryl halides in homogeneoussoultions containing copper (I) ions”, Tetrahedron Letters, Vol. 16,pp. 143-146, 1975.

53. Cohen, T., Wood, J. and Dietz, A. G. “Organocopper Intermediates inExchange Reactions of Aryl halides with salts of copper (I) - Possiblerole of copper (III)”, Tetrahedron Letters, pp. 3555-3558, 1974.

54. Collman, J. P., Min Zhang, Chi Zhang and Simona Costanzo,“The[Cu(OH).TMEDA]2Cl2 – Catalysed Coupling of Arylboronic Acidswith Imidazoles in water”, J. Org. Chem., Vol. 66, pp. 7892-7897,2001.

55. Corral, C., Ana Lasso, Jaime Lissavetzsky, Alberto SanchesAlverszinsua, Ana, M. and Valdeolmillos, “The behaviour of vicinalalkyl aminothiophene carboxylates in the Sandmeyer and Schiemannreactions”, Heterocycles, Vol. 23, No. 6, pp.1431, 1985.

56. Corral, C., Lissavetzky, J., Alvarez-Insua, A. S. and Valdeolmillos, A. M.“Synthesis of 3-Mercaptothiophene- 2-and 4-carboxylic acids”,Organic Preparations and Procedures Int., Vol. 17, No. 3, pp. 163-167,1985.

57. Cotton, F. A., Wilkinson, G., Murillo, C. A. and Bochman, M.“Advanced Inorganic Chemistry”, John Wiley and sons, pp. 854-876,1999.

58. Craig, P. N. “Medicinal Chemistry”, C. J. Edition, Pergamon Press,New York, Vol. 8, 1991.

59. Cristau, H. J. and Pascal, P. P. Samy Hamada, Jean-Francis Spindler,and Marc Taillefer, “A General and Mild Ullmann - Type Synthesis ofDiaryl Ethers”, Organic Letters, Vol. 6, No. 6, pp. 913-916, 2004.

60. Cristau, H. J., Cellier, P. P., Jeans-Francis Splindler, and MarkTeillefer, “Highly efficient and mild copper catalyzed N- and C-arylations with aryl bromides and iodides”, Chem. Eur. J., Vol. 10,pp. 5607-5622, 2004.

222

61. D’angelo, N. D., Peterson, J. J., Booker, S. K., Fellows, I., Dominguez,C., Hungate, R., Reider, P. J. and Kim, T. S. Tetrahedron Letters,Vol. 47, pp. 5045-5048, 2006.

62. Denney, D. B. and Denney, D. Z.” A reconsideration of the mechanismfor the aromatic version of radical nucleophile displacement reactions”,Tetrahedron, Vol. 47. No. 33, pp. 6577-6600, 1991.

63. Denney, D. B., Denney, D. Z. and Perez, A. J. ” Concerning themechanism of displacement of nitro groups from activated aromaticsystems”, Tetrahedron, Vol 49, No. 21, pp. 4473-4476, 1993.

64. D’Aprano, G., Leclerc, M., Zotti, G. and Schiavon, G. “Synthesis andCharacterization of Polyaniline Derivatives: Poly (2-alkoxyanilines)and Poly (2, 5-dialkoxyanilines)”, Chem. Mater, Vol. 7, pp. 33, 1995.

65. Davies, S. G., Green, M. L. H. and Mingos, D. M. P. “addition toorganotransition metal cations containing unsaturated hydrocarbonligands”, Tetrahedron, Vol. 34, pp. 3047-3077, 1978.

66. Diederich, F. and Stang, P. J. “Metal catalyzed cross couplingreactions”, Wiley-VCH, New York, 1998.

67. Dieter, B. and Otto Hromatka, “Thienothiazine derivatives”,Hoffmann-La Roche Inc., New Jersey, US Patent 4090020, Col. 5,lines 48-52, 1978.

68. Dieter, B. and Otto Hromatka,“Thienothiazine derivatives”, Hoffmann-La Roche Inc., New Jersey, US Patent 4090020, 1978 (Chem. Abst,Vol. 90, 204119, 1979)

69. Dieter, B., Hromatka, O., Geisler, F., Schmide, K., Christian, R. N., Burri,K., Pfister, R., Strub, K. and Zeller, P. “Analogues and derivatives ofTenoxicam. Synthesis and anti-inflammatory activity of analogueswith different residues on the ring Nitrogen and the Amide Nitrogen”,Journal of Medicinal Chemistry, Vol. 30, pp. 678-682, 1987.

70. Diliang, G., Huang, H., Xu, J., Jiang, H. and Liu, H. “Efficient Iron-Catalysed N-Arylation of Aryl Halides with Amines”, Organic Letters,Vol. 10, No. 20, pp. 4513-4516, 2008.

71. Eberson, L., Jonsson, L. and Wistrand, L. G. “The SON2 Mechanism -A non-oxidative reaction that is initiated by electron transferoxidation”, Tetrahedron, Vol. 38, No. 8, pp.1087-1093, 1982.

223

72. Elena, S., Gerard P. M., van Klink, Gerard van Koten, and Johannes G.de Vries, “The mechanism of the modified Ullmann reaction”, DaltonTrans., Vol. 39, pp. 10338-10351, 2010.

73. Elena Sperotto, Johannes, G., de Vries, Gerard, P.M., van Klinkand Gerard van Koten, “Ligand-free copper (I) catalyzed N-and O- arylation of aryl halides”, Tetrahedron Letters, Vol. 48,pp. 7366-7370, 2007.

74. Elliot, G. I. and Konopelski, J. P. “Complete N-1 regiocontrol in theformation of N-arylimidazoles. Synthesis of the active site His-Tyrside chain coupled dipeptide of cytochrome c oxidase”, OrganicLetters, Vol. 2, pp. 3055, 2000.

75. Evans, D. A., Katz, J. L. and West, T. R. “Synthesis of diaryl etrhersthrough the copper-promoted arylation of phenols with aryl boronicacids. An expedient synthesis of Thyroxine”, Tetrahedron Letters,Vol. 39, pp. 2937-2940, 1998.

76. Evindar, G. and Batey, R. A. “Copper and palladium-catalyzedintramolecular aryl guanidinylation: An efficient method for synthesisof 2-aminobenzimidazoles”, Organic Letters, Vol. 5, pp. 133-135,2003.

77. Ezquerra, J., Pedregal, C., Lamas, C., Barluenga, J., Perez, M.,GarciaMartin, M. A. and Gonzalez, J. M. “Efficient reagents for thesynthesis of 5-, 7- and 5, 7-substituted indoles starting fromaromatic amines - Scope and Limitations”, J. Org. Chem., Vol. 61,pp. 5804-5812, 1996.

78. Fitton, P. and Rick, E. A. “The addition of aryl halides totetrakis(triphenylphosphine)palladium(0)”, Journal of OrganometallicChemistry, Vol. 28, No. 2, pp. 287-291, 1971.

79. Gary, D. A., Lanny, S. and Liebeskind, K. “Copper Mediated CrossCoupling of Organostannanes with organic iodides at or below RoomTemperature”, J. Am. Chem. Soc., Vol. 118, pp. 2748-2749, 1996.

80. Gelman, D., Jiang, L. and Buchwald, S. L. “Copper catalyzed C-Pbond construction via direct coupling of secondary phosphines andphosphites with aryl and vinyl halides”, Organic Letters, Vol. 5,pp. 2315-2318, 2003.

224

81. Geoffrey K. Cooper, Don R. Baker, and Larry B. Barden,"An Ortho-Directing Effect in the Nucleophilic Aromatic SubstitutionReactions of Primary and Secondary 2,4-Dichloro- and 2,3,4-Trichlorobenzamides with Ethanethiolate", Synthetic Communication,Vol. 25, Issue 6, pp. 899-906, 1995.

82. George, L. and Richard, V. P. “Process for the preparation of alkyl 3-chlorosulfonylthiophene-2-carboxylate”, EI Du Pont De Nemours andcompany, USA-Delaware, GB 2159156A, 1985.

83. Gibson, V. C. and Spitzmesser, S. K.”Nucleophilic SubstitutionReactions By Electron Transfer”, Chemical Reviews, Vol. 105, No. 1,pp 72-167, 2003.

84. Gol’dfarb, Y. L. and Vol’kenshteuin, Y. B.”Action of bromine on 2-acetothienone in the presence of excess Aluminum bromide”, DokladyAkademii Nauk SSSR V 128, (Chemical Abstract), Vol. 54, pp. 536-539,1959.

85. Goldberg, A. A. “Hydrolysis of substituted o-chlorobenzoic acids. Themechanism of the reaction between o-halogenobenzoic acids andnucleophilic reagents”, J. Chem. Soc, pp. 4368-4373, 1957.

86. Goldberg, I. “Ueber Phenylirungen bei Gegenwart von Kupfer alsKatalysator”, Ber. Chem. Ges. Vol. 39, pp. 1691-1692, 1906.

87. Goodbrand, H. B. and Hu, N. X. “Ligand accelerated catalysis of theUllmann condensation: Application of hole conducting aryl amines”, J.Org. Chem., Vol. 64, pp. 670-674, 1999.

88. Goshaev, M., Otroshchenko, O. S. and Sadykov, A. S. “The Ullmannreaction”, Russ. Chem. Rev., Vol. 41, pp. 1046-1059, 1972.

89. Gronowitz, S. and T. Raznikiewicz, T. “3-Bromotrhiophene”, OrganicSyntheses, John Wiley and Sons, Inc., Coll. Vol. 5, pp.149, 1973

90. Gujadhar, R., Venkataraman, D. and Kintigh, J. T. “Formation of aryl-nitrogen bonds using soluble copper (I) catalyst”, Tetrahedron Letters,Vol. 42, pp. 4791-4793, 2001.

91. Gwilherm, E., Mathieu, T., and Alexis, C. “Copper-Catalysedcyclisation reactions for the synthesis of alkaloids”, Chem. Commun.,pp. 4166-4175, 2009.

225

92. Harold Zinnes, Jagadish, C. S., Neil, L., Martin, L. S., Arthur, C. F.,John, S., Charles, F. K., Jerome, D. G., Charles, L. and Dipasquale, G.“Isoxicam and related 4-hydroxy-N-isoxazolyl-2H-1,2-benzothiazine-3-carboxamide, 1,1-dioxides. Potent nonsteroidal antiinflammatoryagents”, J. Med. Chem., Vol.25, No.1, pp. 12-18, 1982.

93. Hathway, B. J. and Billing, D. E. “The electronic properties andstereochemistry of mono-nuclear complexes of the copper (II) ion“,Coord. Chem. Rev., Vol. 5, pp. 143- 207, 1970.

94. Hathway, J. “A new look at the stereochemistry and electronicproperties of complexes of the copper (II) ion”, Structure and Bonding,Vol. 57, pp. 55-118, 1984.

95. Hauptman, E., Fagon, P. J., Shapiro. R., Casalnuovo, A. “Usingintelligent/random Library screening to design focused libraries for theoptimization of homogeneous catalysts: Ullmann ether formation”, J.Am. Chem. Soc. Vol. 122, pp. 5043-5041, 2000.

96. He, H. and Wu, Y. J. “Synthesis of diaryl ethers through the coppercatalyzed arylation of phenols with aryl halides using microwaveradiations”, Tetrahedron Letters, Vol. 44, pp. 3445-3446, 2003.

97. Heck, R. F. and Nolley, J. P. “Palladium catalyzed Vinylic Hydrogensubstitution reaction with aryl, benzyl and styryl halides”, Journal ofOrganic Chemistry, Vol. 37, pp. 2320-2322, 1972.

98. Hennessy, E. J. and Buchwald, S. L. “A General method and mildcopper catalyzed arylation of diethyl malonate”, Organic Letters,Vol. 4, pp. 269-272, 2002.

99. Hitomi, S., Hisake, A. B. E. and Atsuhiro, O. “Facile substitutionreaction between un-activated aryl iodides and arenethiolates in thepresence of copper (I) iodide”, Chemistry Letters, pp. 1363-64, 1980.

100. Houghton, R. P., Martyn, V. and Price, R. “Intramolecular nucleophilicsubstitution of co-ordinated aryl halides. A preparation of chromans”,J. Chem. Soc. Chem. Commun. pp. 884-885, 1980.

101. Huang, X., Klapars, A., and Buchwald, S. L. “A general and efficientcopper catalyst for the amidation of aryl halides”, J. Am. Chem. Soc.,Vol. 124, pp. 7421-7428, 2002.

226

102. Huffman, L. M., Casitas, A., Font, M., Canta, M., Costas, M., Ribas,X. and Stahl, S. S.”Observation and mechanistic study of facile C–Obond formation between a well defined aryl-copper (III) complex andoxygen nucleophiles”, Chem. Eur. J., Vol. 17, pp. 10643-10650, 2011.

103. Islam, M., Mondal, D., Mondal, P., Roy, A. S., Mobarak, M., andHossain, D. “A recyclable heterogeneous copper(II) Schiff basecatalyst for the O-arylation reaction of phenols with aryl halides”,Journal of Chemical Research, No. 3, pp. 170-174, 2010.

104. Iotov, P.I., Kalcheva, S. V. and Bond, A. M.”Kinetic and mechanisticevaluation of tetrahydroborate ion electro-oxidation at polycrystallinegold”, Electrochimica Acta., Vol. 54, Issue 28, pp 7236-7241, 2009.

105. Job, J. E. and Buchwald, S. L. “Copper catalyzed arylation of beta-amino alcohols”, Organic Letters, Vol. 4, pp. 3703-3706, 2002.

106. Jones, G. O., Liu, P., Houk, K. N. and Buchwald, L. “Computationalexplorations of mechanisms and Ligand selectivities of coppercatalyzed Ullmann-type reactions”, J. Am. Chem. Soc., Vol. 132,No. 17, pp. 6205- 6213, 2010.

107. Joseph Wang,”Analytical Electrochemistry”, Second Edition, JohnWiley & Sons, Inc. New York, 2001.

108. Kang, S. K., Lee, S. N. and Lee, D. “Copper catalyzed N-arylation ofamines with hypervalent iodonium slats”, Synlett, pp. 1022-1024,2000.

109. Kassmi, A. E., Héraud, G., Büchner, W., Fache, F., Lemaire, M. “Aromatic nucleophilic substitution on thiophene rings”, Journal ofMolecular Catalysis, Vol 72, Issue 3, pp. 299–305, 1992.

110. Kemitami, T., Oshsawa, T. and Ihara, M. “A Novel Synthesis of IndoleDerivatives”, Heterocycles, Vol. 14, pp. 277-280, 1980.

111. Kim, G. S. and Chol, D. H. Chemical Abstracts, Vol. 152, pp. 548099,2010.

112. Kiyomri, A., Marcoux, J. F. and Buchwald, S. L. “An efficient coppercatalyzed coupling of Aryl halides and imidazoles”, TetrahedronLetters, Vol. 40, pp. 2657-2660, 1999.

227

113. Klapars, A. and Buchwald, S. L. “Copper catalyzed halogen exchangein aryl halides, an aromatic Finkelstein reaction”, J.Am.Chem.Soc.Vol. 124, pp. 14844-14845, 2002.

114. Klapars, A., Kwong, F. Y. and Buchwald, S. L. “Copper-catalyzedcoupling of alkyl amines and aryl iodides- An efficient system even inair atmosphere”, Organic Letters, Vol. 4, pp. 581-584, 2002.

115. Klapars, A., Wolter, M. and Buchwald, S. L. “Synthesis of N-arylhydrazides by copper catalyzed coupling of hydrazides with aryliodides”, Organic Letters, Vol. 3, pp. 3803-3805, 2001.

116. Kochi, J. K. “Organometallic Mechanisms and Catalysis”, Academicpress, New York, pp.168-180, 1978.

117. Kochi, J. K., Tang, R. T. and Bernath, T.”Mechanism of Aromaticsubstitution, Role of Cation-radicals in the oxidative substitutionof Arenes by Cobalt (III)”, J. Am. Chem. Soc. Vol. 95 (21),pp 7114–7123, 1973.

118. Komiya, S., Albright, T.A., Hoffman, R. and Kochi, J. K. “Reductiveelimination and isomerization of organogold complexes- theoreticalstudies of trialkylgold species as reductive intermediates”, J. Am.Chem. Soc., Vol. 98, pp. 7255-7265, 1976.

119. Kou-Yi, T. and Ludwig, B. “Synthesis of 3-hydroxythienopyrimidine-2, 4[1H, 3H]-diones from 2, 3-and 3, 4-thiophenedicarboxylic acids”,J. Org. Chemistry, Vol. 40, No. 2, pp.172-175, 1975.

120. Krause, N. “Modern Organocopper Chemistry”, John Wiley & Sons,Chap. 1, 2002.

121. Kumar, S., Kapoor, M., Surolia, N. and Surolia, A. “One StepSynthesis of Novel Antimicrobial 2-Hydroxy Diaryl Ethers ThroughDomestic Microwave Heating“, Synthetic Communication, Vol. 34,pp. 413-420, 2004.

122. Kunz, K., Scholz, U. and Ganzer, D. “Renainancesof Ullmann andGoldberg reactions - Progress in copper catalyzed C-N, C-O, C-Scoupling”, Synlett, pp. 2428-2439, 2003.

123. Kurz, M. E. and Hage, G. W. " Nucleophilic Aromatic SubstitutionPromoted by Cobalt(II1) Trifluoroacetate", J. Org. Chem., Vol. 42,No. 25, pp. 4080- 4084, 1977.

228

124. Kuwabe, S. I., Torraca, K. E. and Buchwald, S. L. “A high yield ofgeneral method for the catalytic formation of Oxygen Heterocycles”,Journal of American Chemical Society, Vol. 122, pp.12907-12908,2000.

125. Kwong, F. Y. and Buchwald, S. L. “A general and inexpensive catalystsystem for the coupling of aryl iodides and thiols”, Organic Letters,Vol. 4, pp. 3517-3520, 2002.

126. Kwong, F. Y. and Buchwald, S. L. “Mild and efficient coppercatalyzed amination of aryl bromides and primary alkyl amines”,Organic Letters, Vol. 5, pp. 793-796, 2003.

127. Lam, P. Y. S., Clark, C. G., Saubern, S., Adams, J., Winters, M. P.,Chan, D. M. T. and Combs, A. “New aryl / hetero aryl C-N bondcross-coupling reactions via aryl boronic acids and cupric acetatearylation”, Tetrahedron Letters, Vol. 39, pp. 2941-2944, 1998.

128. Lam, P. Y. S., Deudon, S., Averill, K. M., Li, R., He, M. Y.,Deshong, P. and Clark, C. G. “Copper-Promoted C-N Bond Cross-Coupling with Hypervalent Aryl Siloxanes and Room-Temperature N-Arylation with Aryl Iodide”, J. Am. Chem. Soc., Vol. 122, No. 31,pp.7600-7601, 2000.

129. Lam, P. Y. S., Vincent, G., Clark, C. G., Deudon, S. and Jadhav, P. I.K. “Copper – catalyzed general C-N and C-O bond cross-coupling witharylboronic acid”, Tetrahedron Letters, Vol. 42, pp. 3415, 2001.

130. Laszlo Kurti, and Barbara Czako, “Strategic Applications of NamedReactions in Organic Synthesis”, Elseiver Academic Press,pp. 464-467, 2005.

131. Leardini, R., Martelli, G., Spagnolo, P. and Tiecco, M. “Metalation andhalogen–metal exchange in 3-arylthiophens “, J. Chem. Soc. C,Issue 10, pp. 1464-1469, 1970.

132. Lei- Xu, Zhu, D., Wu, F., Wang, R. and Wan, B. “Mild and efficientcopper - catalyzed N- arylation and N-H heterocycles using an oxime-phosphine oxide ligands”, Tetrahedron, Vol. 61, pp. 6553-6560, 2005.

133. Levitt, G. “Herbicidal acetals and ketals”, USP 4659369, 1987.

134. Ley, S. V. and Thomos, A. W. “Modern synthetic methods for copper-mediated C (aryl)-O, C (aryl)-N, C (aryl)-S bond formation”, Angew. Chem.Int. Ed. Engl., Vol.42, pp. 5400-5449, 2003.

229

135. Ley, S. V. and Thomos, A. W. “Modern synthetic methods for copper-mediated C (aryl)-O, C (aryl)-N, C (aryl)-S bond formation”, Angew. Chem.Int. Ed. Engl., Vol 43, pp.1043, 2004.

136. Liang Zeng, Fu, H., Qiao, R., Jiang, Y. and Zhao, Y. “EfficientCopper-Catalyzed Synthesis of N-Alkylanthranilic Acids via an ortho-Substituent Effect of the Carboxyl Group of 2-Halobenzoic Acids atRoom Temperature“, Advanced Synthesis and Catalysis, Vol. 357,pp. 1671-1676, 2009.

137. Lindley, J. “Copper assisted nucleophilic substitution of Aryl halogen”,Tetrahedron, Vol. 40, No. 9, pp.1433-1456, 1984.

138. Lombardino, J. G. and Wisemann, E. H. “Piraxicam and other anti-inflammatory oxicams”, Med. Res. Rev. (Pfizer, Central ResearchCroton), Vol. 2, No. 2, pp. 127-152, 1982.

139. Ma, D. and Cal, Q. “N, N-dimethylglycine promoted Ullmanncoupling reactions of phenols and aryl halides”, Organic Letters,Vol. 5, pp. 3799-3802, 2003.

140. Ma, D., Xia, C., Jiang, J., Zhang, J. and Tang, W. “AromaticNucleophilic Substitution or CuI-Catalyzed Coupling Route toMartinellic Acid”, J. Org. Chem., Vol. 68, No 2, pp. 442-451, 2003.

141. Ma, D. and Xia, C. “CuI-Catalyzed coupling reaction of -Amino acidsor esters with aryl halides at temperature lower than that employed inthe normal Ullmann reaction. Facile synthesis of SB-214857“, OrganicLetters, Vol. 3, pp 2583-2586, 2001

142. Ma, D., Zhang, Y., Yao, J., Wu, S. and Tao, F. “Accelerating EffectInduced by the structure of -Amino acid in the Copper-CatalysedCoupling eaction of Aryl Halides with -Amino Acids. Synthesis ofBenzolactam-V8”, J. Am. Chem. Soc. Vol. 120, No. 48, pp.12459-12467,1998.

143. Maite, L.., Docampo Palacios, and Rolando F. Pellón Comdom,Synthetic Communication, Vol. 33(10), pp. 1771-1775, 2003.

144. Manbeck, G. F., Lipman, A. J., Stockland, R. A., Freidl, A. L., Hasler,A. F., Stone, J. J. and Guzei, I. A. “Organo soluble clusters as precatalyst for carbon-hetero element bond forming reactions. Microwaveand conventional heating”, J. Org. Chem., Vol. 70, pp. 244-250,2005.

230

145. Mann, G. and Hartwig, J. F. “Palladium alkoxides - Potentialintermediacy in catalytic amination, reductive elimination of ethers andcatalytic etheration. Comments on Alcohol elimination from Ir (III)”, J.Am. Chem. Soc. Vol. 118, pp. 13109-13110, 1996.

146. Mann, G. and Hartwig, J. F. “Palladium catalyzed formation of diarylethers from Aryl bromides. Electron poor Phosphines enhance reactionyields”, Tetrahedron Letters, Vol. 38, pp. 8005-8008, 1997.

147. Maradolla, M. B., Amaravathi, M. and Garimella, C. “Regioselectivecopper-catalysed amination of halobenzoic acids using aromaticamines”, Journal of Chemical Research, Vol. 10, pp. 587-589, 2007.

148. Marcoux, J. F., Doye, S. and Buchwald, S. L. “A general coppercatalyzed synthesis of diaryl ethers”, J. Am. Chem. Soc., Vol. 119,pp. 10539-10540, 1997.

149. Martin Lawrence, L. and Setescak Linda, L. “OxothienobenzoxepinsMedicinal use and process for the preparation thereof” (Setescak,Hoechst-Roussel Pharmaceuticals, New Jersey), USP 4560701, 1985.

150. Masami Takahashi, Kuroda, T., Ogiku, T., Ohmizu, H., Kondo, K.,and Iwasaki, T. “A Facile Synthesis of Highly FunctionalizedUnsymmetrical Heterobiaryls utilizing the intramolecular Ullmanncoupling reaction directed by Salicyl Alcohol as a template”,Heterocycles, Vol. 36, No. 8, pp.1867-1882, 1993.

151. Mayer, W. and Fikentscher, R. “Über die nucleophile Substitution desHalogens in o-Brom-benzoesäuren”, Chem. Ber, 91, 1536, 1958.

152. McIntosh, D. and Ozin, G. A. “Synthesis using metal vapors. Silvercarbonyls. Matrix infrared, ultraviolet-visible, and electron spinresonance spectra, structures, and bonding of silver tricarbonyl, silverdicarbonyl, silver monocarbonyl, and disilver hexacarbonyl, J. Am.Chem. Soc., 98 (11), pp. 3167-3175, 1976.

153. McKillop, A. and Bruggink, A. “A study of the Copper catalyzeddirect arylation of -Dicarbonyl compounds with 2-bromobenzoicacids”, Tetrahedron, Vol. 31, pp. 2607-2619, 1975.

154. McKillop, A. and Rao, D. P. “Copper-Catalysed Condensation ofß-Dicarbonyl Compounds with 2-Bromobenzaldoximes: A Simple,One-Step Synthesis of 3-Hydroxyisoquinoline N-Oxides”, Synthesis,pp. 760-761, 1977.

231

155. Mei, X., August, A. T. and Wolf, C. “Regioselective Copper-CatalyzedAmination of Chlorobenzoic Acids: Synthesis and Solid-StateStructures of N-Aryl Anthranilic Acid Derivatives“, J. Org. Chem.,Vol. 71, pp. 142-149, 2006.

156. Menno, A. K., Theo, H. A. Peters, and Lambert, B. “Copper (I) halidecatalyzed synthesis of Alkyl aryl and Alkyl hetero aryl ethers”,Tetrahedron, Vol. 48, No. 17, pp. 3633-3652, 1992.

157. Miller, I. “A monograph on Aromatic nucleophilic substitution”,Elsevier, New York, 1968.

158. Moroz, A.K. and Shvarisberg, M.S. “The Ullmann-EtherCondensation”, Russ. Chem. Rev., Vol. 43, pp. 1443-1461, 1974.

159. Naohiko Yoshikai and Eiichi Nakamura, “Mechanisms of NucleophilicOrganocopper (I) Reactions“, Chemical Reviews, Vol. 112 (4),pp. 2339-2372, 2012.

160. Nathan Kornblum, “Substitution reaction which proceed via radicalanion intermediate”, Angew. Chem. Internat. Ed., Vol. 14, No. 11,pp. 734, 1978.

161. Nordmann, G. and Buchwald, S. L “A Domino copper-catalyzed C-Ocoupling Claisen rearrangement process”, J. Am. Chem. Soc.,Vol. 125, pp. 4978-4979, 2003.

162. Olivera, R., Sanmarin, R., Churruca, F. and Dominguez, E. “Revisitingthe Ullmann Ether Reaction: A Concise and AmenableSynthesis of Novel Dibenzoxepino[4,5-d]pyrazoles by IntramolecularEtheration of 4,5-(o,o‘-Halohydroxy)arylpyrazoles”, Journal ofOrganic Chemistry, Vol. 67, No. 21, pp. 7215-7225, 2002.

163. Olivera, R., Sanmartin, R. and Dominguez, E. “A novel palladiumintramolecular diaryl formation”, Tetrahedron Letters, Vol. 41, No. 22,pp. 4353-4356, 2000.

164. Otto, H. and Dieter, B. “Thienothiazine derivatives”, (Hoffmann-LaRoche Inc., New Jersey), USP 4177193, 1979.

165. Otto, H. and Dieter, B. “Thienothiazine Derivatives”, USP 4224445,Hoffmann-La Roche Inc., New Jersey, 1980.

232

166. Otto, H. and Dieter, B. “Thiophene Saccharines”, BASFAktiengesellschaft, Ludwigshafen, Germany, USP 4028373, 1977(Chem. Abst. Vol. 85, 5612, 1976).

167. P´erez, P. J. and D´ az-Requejo, M. M. ComprehensiveOrgamometallic Chemistry III, editors-R. Crabtree, M. Mingos, ed.,Elsevier Science, 2006, Vol 2, K. Meyer, Volume ed. p153, 2006.

168. Paine, A. J. “Mechanisms and Models for Copper mediatedNucleophilic Aromatic substitution. A single catalytic species fromthree different Oxidation states of Copper in an Ullmann synthesis ofTriarylamines”, J. Am. Chem. Soc., Vol. 109, pp. 1496-1502, 1987.

169. Paine, A. J. and Couture, C. “Mechanisms and models ofhomogeneous copper mediated ligands exchange reactions of the typeCuCN+ArX-ArNu+CuX”, Can. J. Chem., Vol. 63, pp. 111, 1985.

170. Palucki, M., Wolfe, J. P. and Buchwald, S. L. “Synthesis of Oxygenheterocycles via a palladium catalyzed C-O bond forming reaction”, J.Am. Chem. Soc., Vol. 118, pp. 10333-10334, 1996.

171. Panta, P. E. “Indium promoted reductive homo alkyl and aryl halides”,Synthesis, pp. 613, 1964.

172. Panta, P. E. “The Ullmann synthesis of biaryls”, Synthesis, Vol. 9,pp. 1-21, 1974.

173. Parrish, C. A. and Buchwald, S. L. “Palladium catalyzed formation ofAryl tert-butyl ethers from unactivated Aryl halides”, Journal ofOrganic Chemistry, Vol. 66, pp. 2498-2500, 2001.

174. Paul, E. W. and Atkins, H. “Catalysis with Copper in the Ullmannreactions”, J. Am. Chem. Soc., Vol. 50, No. 3, pp.859-866, 1928.

175. Pellon, R. F., Carrasco, R., Milllian, V. and Rhodes, L. “Use ofpyridine as co-catalyst for the synthesis of 2-carboxy substitutedDiphenyl ethers by Ullmann - Goldberg condensation”, SyntheticCommunication, Vol. 25, pp. 1077-1083, 1995.

176. Pellon, R. F., Comdom, M. L. and Docampo, P. “The use ofUltrasound in the synthesis of 2-carboxy substituted Diphenyl ethersusing water as solvent”, Synthetic Communication, Vol. 33, pp. 921-926,2003.

233

177. Pelly, S. C., Parkinson, C. J., Willem A. L. van Otterlo, and Charles B.de Koning “Metathesis Reactions for the Synthesis of ring-FusedCarbazoles”, J. Org. Chem., Vol. 70, No. 25, pp. 10474-10481, 2005.

178. Pingping Tang, Takeru Furuya, and Tobias Ritter." Silver-CatalyzedLate-Stage Fluorination", J. Am. Chem. Soc., Vol. 132, pp. 12150-12154,2010.

179. Plana, D., Shul, G., Stephenson, M. J. and Robert A.W. Dryfe, “Thevoltammetric response of bipolar cells: Mechanistic investigations ofelectroless deposition”, Electrochemical Communication, Volume 11,Issue 1, pp 61-64, 2009.

180. Pongchart B, D., Joyce, W. C., Warinthorn, C. and Philip, W. H. C.“Copper catalyzed Ullmann coupling under ligands- and additives- freeconditions. Part 2: S-Arylation of thiols with Arylhalides”, TetrahedronLetters, Vol. 49, pp. 2023-2025, 2008.

181. Prim, D. and Krisch, G. “Convenient amination of weakly activatedThiophenes, Furans, and Selenophenes in aqueous media”,Tetrahedron, Vol. 55, pp. 6511-6526, 1998.

182. Prim, D., Campagne, J. M., Joseph, D. and Andrioletti, B.“Pd-catalyzed reactions of aryl halides with soft, non-organometallicnucleophiles”, Tetrahedron, Vol. 58, pp. 2041-2075, 2002.

183. Quach, T. D. and Baley, R. A. “Copper (II) catalyzed ether synthesisfrom aliphatic alcohols and potassium organotrifluoroborate salts”,Organic Letters, Vol. 5, pp. 1381-1384, 2003.

184. Quach, T. D., Bailey, R. A. “Ligand and base free copper (II) catalyzedC-N bond formation: cross coupling reactions of organoboranecompounds with aliphatic amines and anilines”, Organic Letters,Vol. 5, pp. 4397-4400. 2003.

185. Raju, B., Chengde, W., Rosario, C., Ilya, O., Fiona, S. and Ming, F. C.“2-Aryloxycarbonylthiophene-3-sulfonamides: Highly potent and ETAselective endothelin receptor antagonists”, Bioorganic & MedicinalChemistry Letters, Vol. 7, No. 16, pp. 2093-2098, 1997. Note - APhase 2 Randomized, Double-Blind, Placebo- Controlled ExploratoryEfficacy Study of Sitaxsentan Sodium to Improve Impaired ExerciseTolerance in Subjects With Diastolic Heart Failure-completed, PhaseIII studies are ongoing, 2010.

234

186. Rina Singh, and George Just, “Rates and regioselectivities of thepalladium-catalysed ethynylation of substituted bromo- anddibromobenzenes”, J. Org. Chem., Vol. 54, No. 18, pp. 4453-4457,1989.

187. Robyn J. Barst, David Langleben, Adaani Frost, Evelyn M. Horn,Ronald Oudiz, Shelley Shapiro, Vallerie McLaughlin, Nicholas Hill,Victor F. Tapson, Ivan M. Robbins, Diane Zwicke, Benjamin Duncan,Richard A. F. Dixon, Lyn R. Frumkin, and the STRIDE-1 StudyGroup, “Sitaxsentan Therapy for Pulmonary Arterial Hypertension”,Am. J. Respir. Crit. Care Med. 169, pp. 441-447. 2004.

188. Rossi, R. A. and de Rossi, R. H. “Aromatic substitution by the SRN1mechanism”, American Chemical society, Washington DC, Vol. 178,1983.

189. Rottger, S., Sjoberg, P. J. R. and Larhed, M. “Microwave-EnhancedCopper - Catalysed N-Arylation of Free and Protected Amino Acids inWater”, J. Comb. Chem., Vol. 9, pp. 204-209, 2007.

190. Ruhland, T., Bang, K. S. and Andersen, K. "Iron-AssistedNucleophilic Aromatic Substitution on Solid Phase", J. Org. Chem.,Vol. 67, pp. 5257-5268, 2002.

191. Salo Gronowitz, “The Chemistry of Heterocyclic compounds”, Part 4,“Thiophene and it’s derivatives”, John Wiley and Sons, New York,Vol. 44, pp. 296-396, 1991.

192. Saphier, M., Masarwa, A., Cohen, H. and Meyerstein, D. “Copper (I)as a Homogeneous Catalyst for the Ullmann Reaction in AqueousSolutions The Transformation of 2-Bromobenzoate into Salicylate”,Europian Journal of Inorganic Chemistry, pp.1226, 2002.

193. Scott Sawyer, J. “Recent advances in diaryl ether synthesis”,Tetrahedron, Vol. 56, pp. 5045-5065, 2000.

194. Sebastian Riedela and Martin Kauppb, “The highest oxidation states ofthe transition metal elements”, Coordination Chemistry Reviews,Vol. 253, pp. 606-624, 2009 and references cited therein.

195. Semmelhacket, M. F., Clark, G. R., Farina, R. and Saeman, M.“Substituent effects in addition of carbanions to arenechromiumtricarbonyl complexes: correlation with arene LUMO“, J. Am. Chem.Soc. Vol. 101, pp. 217-218, 1979.

235

196. Shelby, Q., Kataoka, N., Mann, G. and Hartwig, J. “Unusual in situLigand modification to generate a catalyst for room temperaturearomatic C-O bond formation”, J. Am. Chem. Soc, Vol. 122,pp.10718-10719, 2000.

197. Shelton Bank, and Dan A. Noyd, “Evidence for an Electron-TransferComponent in a Typical Nucleophilic Displacement Reaction”, J. Am.Chem. Soc., Vol. 95, No. 24, pp. 8203-8205, 1973.

198. Shuanglong Liu, John Paul C. Pestano, and Christian Wolf,”Regioselective Copper-Catalyzed C-N and C-S Bond FormationUsing Amines, Thiols and Halobenzoic Acids”, Synthesis, Vol. 22, pp. 3519-3527, 2007.

199. Shu-Bin Zhao, Rui-Yao Wang, and Suning Wang, “Dinuclear Cu (I)Complexes of 1, 2, 4, 5-Tetra (7-azaindolyl) benzene: Persistent 3-Coordinate Geometry, Luminescence, and Reactivity“, Inorg. Chem.,Vol. 45 (15), pp. 5830-5840, 2006.

200. Sice, J. “Preparation and Reactions of 2-Methoxythiophene”, J. Am.Chem. Soc., Vol. 75, No. 15, pp. 3697-3700, 1953.

201. Sluis van der, M., Borbolu, B., Pesa, N. and Percec, V. “Rateenhancement by carboxylate salts in the CuCl, Cu2O, Cu(0) catalyzed“Living” polymerization of butyl methacrylate initiated with sulphonylchlorides”, Macromolecules, Vol. 31, No. 26, pp. 9409-9412, 1998.

202. Snieckus, V., Kalinin, A. V., Bower, J. P. and Riebel, P. “The directedortho Metalation – Ullmann Connection. A new Cu (I) catalyzedvariant for the synthesis of substituted Diaryl ethers”, J. Org. Chem.,Vol. 64, pp. 2986-2987, 1999.

203. Sorenson, R. J. “Selective N-Arylation of Aminobenzanilides underMild Conditions Using Triarylbismuthanes”, J. Org. Chem., Vol. 65,No. 23, pp. 7747-7749, 2000.

204. Spielvogel, D. and Buchwald, S. L.” Nickel-BINAP CatalyzedEnantioselective -Arylation of -Substituted -Butyrolactones”, J.Am. Chem. Soc. Vol 124, pp. 3500-3501, 2002.

205. Steven H. Bertz, Richard A. Hardin, Michael D. Murphy, Craig A.Ogle, Joshua D. Richter, and Andy A. Thomas ,” Rapid Injection NMRReveals 3 ‘ -Allyl’ CuIII Intermediates in Addition Reactions ofOrganocuprate Reagents”, J. Am. Chem. Soc., Vol.134, Issue 23,pp. 9557–9560, 2012.

236

206. Steven, V. L. and Thomos, A. W. “Modern synthetic methods forcopper mediated C (aryl)-O, C (aryl)-N, and C (aryl)-S bondformation”, Angew. Chem. Int. Ed., Vol. 42, pp. 5400-5449, 2003.

207. Strieter, E. R., Blackmond, D. G. and Buchwald S. L. “The Role ofChelating Diamine Ligands in the Goldberg Reaction: A Kinetic Studyon the Cu-Catalyzed Amidation of Aryl Iodides. J. Am. Chem. Soc.,Vol. 127, pp. 4120, 2005.

208. Sugaya, T., Mimura, Y., Kato, N. and Tomiaco, S. “Synthesis of a 6H-Pyrazolo (4, 5, 1-de)acridin-6-one Derivative (VI): A UsefulIntermediate of Antitumor Agents”, Synthesis, Issue 1, pp. 73-76,1994.

209. Sundaram Ganesh Babu and Ramasamy Karvembu,” CuONanoparticles: A Simple, Effective, Ligand Free, and ReusableHeterogeneous Catalyst for N-Arylation of Benzimidazole”, Industrialand Engineering Chemistry Research, Vol. 50(16), pp. 9594-9600,2011.

210. Suzuki, H. and Hajime, A. “Copper-assisted displacement reaction ofnonactivated lodoarenes with arenesulfinates. Convenient alternativesynthesis of unsymmetrical diaryl sulfones”, Tetrahedron Letters,Vol. 36, No. 35, pp. 6239-6242, 1995.

211. Suzuki, H., Miyoshi, K. and Shinoda, M. “The Copper (I) Iodide-assisted Reaction of Nonactivated Aryl Iodides with Some Alkali MetalPseudohalides”, Bull. Chem. Soc. Jpn., Vol. 53, No. 6, pp. 1765-1766,1980.

212. Takuya Kurahashi, and Seijiro Matsubara, “Syntheses of Heterocyclesby Nickel-catalyzed Substitution Reaction”, Journal of SyntheticOrganic Chemistry Japan - J SYN ORG CHEM JPN , Vol. 68, No. 1,pp. 33-40, 2010.

213. Tao, M., Lei, W. “Immobilization of copper in organic–inorganichybrid materials: a highly efficient and reusable catalyst for theUllmann diaryl etherification“, Tetrahedron Letters, Vol.48, pp. 95-99,2007.

214. Terrier, F. “Rate and equilibrium studies in Jackson-Meisenheimercomplexes”, Chem. Rev., Vol. 82, No. 2, pp. 77-152, 1982.

237

215. Thomas, P. L. “Mechanistic investigation of the copper catalyzedreactions of diphenyliodinium salts”, J. Am. Chem. Soc., Vol. 105,pp. 1940-1946, 1983.

216. Tietze, L. and Lohmann, J. K. “Synthesis of Novel Chiral Thiophene-,Benzothiophene- and Benzofuran-Oxazoline Ligands and their Use inthe Enantioselective Pd-Catalyzed Allylation”, Synlett, Vol. 12,pp. 2083-2085, 2002.

217. Tim, J. L., Haydn, G. B., Mat, W., Antonio, M. and David, R. C.“Palladium catalyst amination of electron deficient halothiophenes”,Tetrahedron letters, Vol. 41, pp. 7731-7735, 2000.

218. Todres, Z. V. “The Role of One-electron Transfer in SubstitutionReactions”, Russ. Chem. Rev., Vol. 47, No. 2, pp.148-162, 1978.

219. Torraca, K. E., Kuwabe, S. I. and Buchwald, S. L. “Palladiumcatalyzed Intramolecular C-O bond formation”, J. Am. Chem. Soc.,Vol. 123, No 49, pp. 12202-12206, 2001.

220. Torraca, K. E., Xiaohua, H., Cynthia, A. P. and Buchwald, S. L. “AnEfficient Intermolecular Palladium-Catalysed Synthesis of ArylEthers”, J.Am.Chem.Soc. Vol. 123, No. 49, pp. 10770-10771, 2001.

221. Toshihiko, M., Tomiya, S., Yoriyoshi, A. and Jun-Ichi, S. “ThePalladium catalyzed nucleophilic substitution of Aryl Halides byThilate Anions”, Bull. Chem. Soc. Jpn., Vol. 53, pp. 1385-1389, 1980.

222. Tye, J. W., Weng, Z., Johns, A. M., Incarvito, C. D. and Hartwig, J. F.“Copper Complexes of Anionic Nitrogen Ligands in the Amidationand Imidation of Aryl Halides”, J. Am. Chem. Soc. 130, pp. 9971-9983,2008.

223. Ullmann,F. “Ueber eine neue Bildungsweise vonDiphenylaminderivaten”, Ber. Dtsch. Chem. Ges. Vol. 36,pp. 2382-2384, 1903.

224. Ullmann, F. “Ueber eine neue Darstellungsweise vonPhenyläthersalicylsäure”, Ber. Dtsch. Chem. Ges., Vol. 37,pp. 853-857, 1904.

225. Ullmann, F. and Sponagel, P. “Ueber die Phenylirung von Phenolen”,Ber. Chem. Ges, Vol. 38, pp. 2211-2212, 1905.

238

226. Van Koten, G., Jastrzebski, J. T. B. H. and Noltes, J. G. “Arearylcopper compounds intermediates in exchange reaction betweenAryl halides and copper (I) salts”, Tetrahedron Letters, pp. 223-226,1976.

227. Wan, Y- Q., Zhu, X- H., Chen, G., Ma, Y., Song, H. C. and Xu, Z- L.“A General, Highly Efficient Ullmann C-O Coupling Reaction underMicrowave Irradiation and the Effects of Water “, Chin. J. Chem.,Vol. 25, pp. 546-552, 2007.

228. Wang. Y., Barnes, E. O. and Compton, R. G. “New Chemical InsightsUsing Weakly Supported Voltammetry: The Reductive Cleavage ofArylBr Bonds is Reversible”. Chem. Phys. Chem., Vol. 13, Issue 15,pp 3441–3444, 2012.

229. Watanabe, M., Nishiyama, M. and Kole, Y. “Palladium/P(t-bu) -catalyzed synthesis of Aryl t-butyl ethers and Application to the firstsynthesis of 4 – Chlorobenzofuran”, Tetrahedron Letters, Vol. 40,pp. 8837-8840, 1999.

230. Weingarten, H. “Mechanism of Ullmann condensation”, J. Org. Chem.,Vol. 29, pp. 3624-3626, 1964.

231. Whitesides, G. M., Sadowski, J. S. and Lilburn J. “Copper (I)Alkoxides: Synthesis, Reactions, and Thermal Decomposition”, J. Am.Chem. Soc., Vol. 96, pp. 2829 -2835, 1974.

232. Wolf, C., Liu, S., Mei, X., August, A. T. and Caximir, M.D.“Regioselective Copper-Catalysed Amination pf Bromobenzoic AcidsUsing Aliphatic and Aromatic Amines”, J. Org. Chem., Vol. 21,pp. 839-842, 2006.

233. Wolfe, J. P. and Buchwald, S. L. “Palladium catalyzed amination ofaryl halides and aryl triflates”, Organic Synthesis, Vol. 10, pp. 243,2004.

234. Wolter, M., Job, J. E., Nordmann, G. and Buchwald, S. L. “Coppercatalyzed coupling of aryl iodides with aliphatic alcohols”, OrganicLetters, Vol. 4, pp. 973-976, 2002.

235. Wu, C., Raju, B., Okun, I., Stavros, F. and Chan, M. F.“2-benzylcarbonylthiophene-3-sulfonamides are orally active ETAselective endothelin antagonists”. The 211th ACS National meeting,New Orleans, I.A, March 24-28, Abstract MEDI-148. Presented inpart, 1996.

239

236. Wu, Y. J. and He, H. “Synthesis of diaryl ethers through the copper-catalyzed arylation of phenols with aryl halides using microwaveheating“, Tetrahedron Letters, 44, pp. 3445-3446, 2003.

237. Xia, Ning, Marc and Taillerfer, “Copper-or-Iron-Catalyzed Arylationof Phenols from respectively Aryl chlorides and aryl iodides”,Chemistry-A European Journal, Vol. 14, No. 20, pp. 6037-6039, 2008.

238. Xing, X., Padbhanaban, D., Yeh, L. A. and Cuny G. D. “Utilization ofa Copper-catalyzed Diaryl Ether Synthesis for the Preparation ofVerbenachalcone”, Tetrahedron , Vol. 58, pp. 7903-7910, 2002.

239. Xin-Hai Zhu, Gong Chen, Ma, Y., Hua-Can Song, Zun-Le Xu andYi-Qian Wan “A General, Highly Efficient Ullmann C-O Couplingreaction under microwave irradiation and the effects of water”, Chin. J.Chem., Vol. 25, pp. 546-552, 2007.

240. Xuefeng Mei, Adam T. August and Christian Wolf, “RegioselectiveCopper-Catalyzed Amination of Chlorobenzoic Acids: Synthesis andSolid-State Structures of N-Aryl Anthranilic Acid Derivatives”, J. Org.Chem., Vol. 71(1), pp. 142-149, 2006.

241. Yamamoto, T., Ehara, Y., Kubota, M. and Yamamoto, A. “Preparationof copper (I) - phosphine complexes having Cu-N bonds and theirreactions with organic halides. “, Bull. Chem. Soc. Jpn., Vol. 53,pp. 1299, 1980.

242. Yunlai, R., Cheng, L., Tian, X., Zhan, S., Wang, J. and Hou, C. “Iron –Catalysed conversion of unactivated aryl halides to phenols in water”,Tetrahedron Letters, Vol. 51, No. 1, pp. 43-45, 2010.

243. Zanon, J., Klapars, A. and Buchwald, S. L. “Copper catalyzed dominohalide exchange - cyanation of aryl bromides”, J. Am. Chem. Soc.,Vol. 125, pp. 2890-2891, 2003.

244. Zeng, L. ; Fu, H. ; Qiao, R. ; Jiang, Y. ; Zhao, Y. “Efficient Copper-Catalyzed Synthesis of N-Alkylanthranilic Acids via an ortho-Substituent Effect of the Carboxyl Group of 2-Halobenzoic Acids atRoom Temperature”, Advanced Synthesis & Catalysis, Vol. 351,pp. 1671, 2009.

245. Zerong Wang“Comprehensive Organic Name Reactions andReagents”, Wiley Interscience, Vol. 1, 2009.

240

246. Zhang Feng, Fei Chen, Xingang Zhang, “Copper Catalyzed Cross-Coupling of Iodobenzoates with Bromozinc-difluorophosphonate”,Organic Letters, Vol. 14(7), pp. 1938-1941, 2012.

247. Zhang, M.H., Zheng, M. and Cheng, T. “Reduction of aromaticsulphonyl chlorides to disulphides”, Organic Preparations andProcedures International , Vol. 28, No. 4, pp. 467-469, 1996.

248. Zhang, S. and Ding, Y. “Theoretical Study on Mechanism of Copper(I)-Catalyzed Cross-Coupling between Aryl Halides and Alkylamines”,Organometallics, Vol. 30(3), pp. 633-641, 2011.

249. Zhang, S., Zhang, D. and Leibeskind, I. S. “Ambient TemperatureUllmann - like reductive coupling of aryl, heteroaryl and alkenylhalides”, J. Org. Chem. Vol. 62, pp. 2312-2313, 1997.

govindarajan k.r (reg. no....

Documents