As the oil reserves are depleting the need of an alternative fuel source is becoming
increasingly apparent. One prospective method for producing fuels in the future is …

This paper provides insights on the properties of bio-oil obtained from various feedstock and
several available mechanisms for bio-oil upgrading. A comprehensive detail on the catalytic …

The incentive for use of renewable resources to replace fossil sources is motivating
extensive research on new and alternative fuels derived from biomass. Bio-oils derived from …

The use of renewable carbon sources as a substitute for fossil resources is an extensively
essential and fascinating research area for addressing the current issues related to climate …

Catalytic pyrolysis is a promising thermochemical conversion route for lignocellulosic
biomass that produces chemicals and fuels compatible with current, petrochemical …

MoO3 is an effective catalyst for the hydrodeoxygenation (HDO) of lignin-derived
oxygenates to generate high yields of aromatic hydrocarbons without ring-saturated …

It is an economical and environment-friendly method to produce renewable and sustainable
oil by upgrading pyrolysis bio-oil containing phenolics. Among all upgrading methods, the …

Biomass pyrolysis oil has been reported as a potential renewable biofuel precursor.
Although several review articles focusing on lignocellulose pyrolysis can be found, the one …

Halloysite nanotubes (HNTs) is a promising support for liquid-phase hydrodeoxygenation
(HDO) catalysts due to a wide abundance, low cost and tunable properties. Acid etching of …

The susceptibility of zeolites to hot liquid water may hamper their full utilization in aqueous
phase processes, such as those involved in biomass conversion and upgrading reactions …