Novel Heterogeneous SO3Na‐Carbon Transesterification Catalyst for the Production of Biodiesel

Glycerol, a major biodiesel by‐product, was valorised into a novel and highly stable heterogeneous carbon‐based solid base catalyst with transesterification activity. The SO3H‐carbon catalyst developed previously by us from glycerol was modified into base catalyst by treating with aqueous alkali under controlled conditions. The reported solid base catalyst is first of its kind having polycyclic aromatic carbon sheets attached with ‐SO3Na, ‐COONa and ‐ONa functionalities. The catalyst was characterized for its structural properties using XRD, FTIR, 13C‐MAS NMR, XPS, EDAX, SEM, TEM, TG/DTA, ICP‐OES and Raman spectral techniques. The SO3Na‐ catalyst was employed for the transesterification of sunflower oil to fatty acid methyl esters (biodiesel) in high yields (99%) at atmospheric pressure. The strong basic sites of the catalyst contributed to its remarkable performance and the activity was intact even after 8 cycles of reuse without any leaching, indicating its high structural stability. Thus, the reported SO3Na‐carbon catalyst possessed the potential of green and economic biodiesel production from oils & fats apart from clean glycerol as by‐product. A novel and highly efficient carbon‐based heterogeneous solid base catalyst with ‐SO3Na, ‐COONa and ‐ONa functionalities was developed from glycerol for the first time with excellent transesterification activity for the production of biodiesel from oils & fats under mild reaction conditions in high yields.