B(OH)<sub>3</sub>‐Catalyzed Dual Friedel‐Crafts Type Reaction of Anilines and Aldehydes to Access Di‐ or Triarylmethanes (TRAMs)-Reference-Cited by-同舟云学术

B(OH)₃‐Catalyzed Dual Friedel‐Crafts Type Reaction of Anilines and Aldehydes to Access Di‐ or Triarylmethanes (TRAMs)

Published:2024-02-02 Issue:7 Volume:27 Page:
ISSN:1434-193X
Container-title:European Journal of Organic Chemistry
language:en
Short-container-title:Eur J Org Chem

Author:

Teli Yaqoob A.¹,Reetu Reetu¹,Gujjarappa Raghuram¹,Banerjee Sourav¹,Ghanta Susanta²,Patel Mayur Jagdishbhai³,Singh Virender⁴,Al‐Zaqri Nabil⁵,Sengupta Ragini⁶,Malakar Chandi C.¹^ORCID

Affiliation:

1. Department of Chemistry National Institute of Technology Manipur Imphal 795004 India

2. Department of Chemistry National Institute of Technology Agartala Tripura 799046 India

3. Department of Chemistry Indian Institute of Technology Guwahati Guwahati 781 039 Assam India

4. Department of Chemistry Central University of Punjab Bathinda 151001 Punjab India

5. Department of Chemistry College of Science King Saud University P.O. Box 2455 Riyadh 11451 Saudi Arabia

6. Institute for Photon Science and Synchrotron Radiation (IPS) Karlsruhe Institute of Technology (KIT) Hermann-von-Helmholtz-Platz 1 76344 Eggenstein-Leopoldshafen Germany

Abstract

AbstractThe catalytic influences of boric acid have been introduced on dual Friedel‐Crafts reaction between arylamines and aldehydes to install the Csp3‐center that leads to the formation of di‐ or tri‐substituted methanes. The described reaction conditions have directed the transformation to favor the para‐para substitution pattern to deliver the major products rather than the corresponding ortho‐para functionalization process. The devised transformation was examined by DFT calculation, which shows the favorable activation energy of transition states (TS) for the generation of highly substituted molecular scaffolds. The method was applicable over diversely substituted aldehydes and arylamines to afford the final products in excellent yields (60‐92 %) and selectivity. The proposed mechanism is supported by suitable control experiments, GC‐MS studies, and DFT calculations.

Publisher

Wiley

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