To reduce the large consumption of fossil resources that have contributed to climate change, Pyrochem has proposed to investigate the fundamentals of biomass fast pyrolysis, a technology that allows production of advanced biofuels. It has long been demonstrated that plant biomass is efficiently converted into liquids via fast pyrolysis. The mixture of aerosols/vapours is then rapidly quenched resulting in a relatively high yield of bio-oil. In addition to the yield, the distribution of products determines the quality of bio-oils, which critically depends on biomass type and temperature-time history. Despite the great added value of fast pyrolysis bio-oil, their application as transport fuels remains limited. Indeed, the pyrolytic liquid is a complex mixture of reactive organic compounds which properties are difficult to control. The relative proportions of cellulose, hemicelluloses and lignin in biomass feedstocks directly influence the chemical reactivity of biomass and have a significant impact on the composition of the bio-oil and its properties. While it is still difficult to predict how the lignocellulosic distribution impacts fast pyrolysis throughputs and the quality of its products, further insight in pyrolysis chemistry is required to (i) reveal key mechanistic details of the formation of bio-oil and (ii) precise the impact of the interactions between lignocellulosic biopolymers on bio-oil's quality.