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Beilstein J. Org. Chem. 2015, 11, 2557–2576, doi:10.3762/bjoc.11.276
Graphical Abstract
Scheme 1: The synthesis of triazoles through the Huisgen cycloaddition of azides to alkynes.
Scheme 2: The synthesis of symmetrically substituted 4,4'-bitriazoles.
Scheme 3: The synthesis of unsymmetrically substituted 4,4'-bitriazoles.
Scheme 4: The stepwise preparation of unsymmetrical 4,4'-bitriazoles.
Scheme 5: The synthesis of 5,5'-bitriazoles.
Scheme 6: The synthesis of bistriazoles and cyclic 5,5’-bitriazoles under different catalytic systems.
Scheme 7: The double CuAAC reaction between helicenequinone and 1,1’-diazidoferrocene.
Scheme 8: The synthesis of 1,2,3-triazoles and 5,5’-bitriazoles from acetylenic amide.
Scheme 9: The amine-functionalized polysiloxane-mediated divergent synthesis of trizaoles and bitriazoles.
Scheme 10: The cyclic BINOL-based 5,5’-bitriazoles.
Scheme 11: The one-pot click–click reactions for the synthesis of bistriazoles.
Scheme 12: The synthesis of bis(indolyl)methane-derivatized 1,2,3-bistriazoles.
Scheme 13: The sequential, chemoselective preparation of bistriazoles.
Scheme 14: The sequential SPAAC and CuAAC reaction for the preparation of bistriazoles.
Scheme 15: The synthesis of D-mannitol-based bistriazoles.
Scheme 16: The synthesis of ester-linked and amide-linked bistriazoles.
Scheme 17: The synthesis of acenothiadiazole-based bistriazoles.
Scheme 18: The pyrene-appended thiacalix[4]arene-based bistriazole.
Scheme 19: The synthesis of triazole-based tetradentate ligands.
Scheme 20: The synthesis of phenanthroline-2,9-bistriazoles.
Scheme 21: The three-component reaction for the synthesis of bistriazoles.
Scheme 22: The one-pot synthesis of bistriazoles.
Scheme 23: The synthesis of polymer-bearing 1,2,3-bistriazole.
Scheme 24: The synthesis of bistriazoles via a sequential one-pot reaction.