Issue 21, 2016
From the journal:

Green Chemistry

KCC-1 supported palladium nanoparticles as an efficient and sustainable nanocatalyst for carbonylative Suzuki–Miyaura cross-coupling

Prashant Gautam,a   Mahak Dhiman,b   Vivek Polshettiwar ORCID logo *b  and  Bhalchandra M. Bhanage*a  

* Corresponding authors

a Department of Chemistry, Institute of Chemical Technology, N.P. Marg, Matunga-400019, Mumbai, India
E-mail: bm.bhanage@ictmumbai.edu.in, bm.bhanage@gmail.com

b Nanocatalysis Laboratories (NanoCat), Department of Chemical Sciences, Tata Institute of Fundamental Research (TIFR), Homi Bhabha Road, Colaba, Mumbai, Maharashtra 400005, India
E-mail: vivekpol@tifr.res.in

Abstract

This work reports a cost-effective and sustainable protocol for the carbonylative Suzuki–Miyaura cross-coupling reaction catalyzed by palladium nanoparticles (Pd NPs) supported on fibrous nanosilica (KCC-1). Under mild reaction conditions, the KCC-1-PEI/Pd catalytic system showed a turnover number (TON) 28-times and a turnover frequency (TOF) 51-times higher than the best supported Pd catalyst reported in the literature for the carbonylative cross-coupling between 4-iodoanisole and phenylboronic acid, as a test reaction. Also, the catalyst could be recycled up to ten times with a marginal loss in activity after the eighth cycle. The high activity of the catalyst can be attributed to the fibrous nature of the KCC-1 support and PEI functionalization provided the enhanced stability.

Graphical abstract: KCC-1 supported palladium nanoparticles as an efficient and sustainable nanocatalyst for carbonylative Suzuki–Miyaura cross-coupling

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Article information

DOI
https://doi.org/10.1039/C6GC02012G
Article type
Paper
Submitted
22 Jul 2016
Accepted
12 Aug 2016
First published
26 Aug 2016

Green Chem., 2016,18, 5890-5899

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KCC-1 supported palladium nanoparticles as an efficient and sustainable nanocatalyst for carbonylative Suzuki–Miyaura cross-coupling

P. Gautam, M. Dhiman, V. Polshettiwar and B. M. Bhanage, Green Chem., 2016, 18, 5890 DOI: 10.1039/C6GC02012G

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