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Pure Appl. Chem., 2006, Vol. 78, No. 7, pp. 1323-1331

Reactions of alkynes with metallaboranes: Novel reactivities lead to new structure types

Thomas P. Fehlner

Department of Chemistry and Biochemistry, University of Notre Dame,Notre Dame, IN 46556, USA

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  • Anju V. P., Barik Subrat Kumar, Mondal Bijnaneswar, Ramkumar V., Ghosh Sundargopal: Metallaboranes from Metal Carbonyl Compounds and Their Utilization as Catalysts for Alkyne Cyclotrimerization. ChemPlusChem 2014, 79, 546. <>
  • Anju V.P., Roy Dipak Kumar, Anju R.S., Ghosh Sundargopal: Transition-metal variation as a probe into the catalytic activity of metallaboranes. Journal of Organometallic Chemistry 2013, 733, 79. <>
  • Geetharani K., Tussupbayev Samat, Borowka Julia, Holthausen Max C., Ghosh Sundargopal: A Mechanistic Study of the Utilization of arachno-Diruthenaborane [(Cp*RuCO)2B2H6] as an Active Alkyne-Cyclotrimerization Catalyst. Chem. Eur. J. 2012, 18, 8482. <>
  • Takao Toshiro, Suwa Hitoshi, Okamura Rei, Suzuki Hiroharu: Formation of a Boraruthenacyclopentenyl Skeleton via B–C Bond Formation across a Triruthenium Plane. Organomettalics 2012, 31, 1825. <>
  • Geetharani K., Ramkumar V., Ghosh Sundargopal: Synthesis and Characterization of Novel Ruthenaferracarboranes from Photoinsertion of Alkynes into a Ruthenaferraborane. Organometallics 2012, 31, 6381. <>
  • Fehlner Thomas P.: Reactions of Alkynes with Metallaboranes: Novel Reactivities Lead to New Structure Types. ChemInform 2006, 37. <>