Iodine induced cyclization of sodium aminodiboranate: Reactivity and mechanisms investigation

Research output: Contribution to journalResearch articleContributedpeer-review

Contributors

  • Huizhen Li - , Guangzhou University, Henan Normal University (Author)
  • Jia Xin Kang - , Henan Normal University (Author)
  • Mingyue Ju - , Henan Normal University (Author)
  • Zi Zhou Wang - , Guangzhou University (Author)
  • Zili Liu - , Guangzhou University (Author)
  • Jiahai Wang - , Guangzhou University (Author)
  • Cong Qiao Xu - , Southern University of Science and Technology (Author)
  • Shan He - , Guangzhou University, Flinders University (Author)
  • Anindya Nag - , Junior Professorship in Haptic Sensors, Clusters of Excellence CeTI: Centre for Tactile Internet (Author)

Abstract

A new facile, cost-effective and highly efficient cyclization of sodium aminodiboranate induced by I2 is developed. The method can be used to prepare aminodiborane and its N–methyl/N, N–dimethyl derivatives, which is catalyst-free, performance independent of temperature and N–substituted groups. Theoretical calculations demonstrate that a two-step cyclization mechanism is favored in the cyclization of sodium aminodiboranate induced by I2, where the intermolecular hydrogen bond and the (η2-H2) dihydrogen moiety play an important role, and the iodination of boron does not occur.

Details

Original languageEnglish
Article number122396
JournalJournal of organometallic chemistry
Volume975
Publication statusPublished - 15 Sept 2022
Peer-reviewedYes

Keywords

ASJC Scopus subject areas

Keywords

  • Aminodiborane, Iodine, Metal boron–nitrogen–hydrogen compound, N, N-dimethyl aminodiborane, N-methyl aminodiborane, Sodium aminodiboranate

Library keywords