Catalytic hydrocracking and hydrogenolysis of PE into alkanes
Hydrogenolysis and hydrocracking [1] are attractive polymer upcycling methods to produce low molecular weight liquid hydrocarbons with narrow molecular weight distributions under r
Engineered yeast converts waste plastic pyrolysis oil into valuable α,ω-diacids with high efficiency
The accumulation of plastic waste is a significant environmental issue, with traditional disposal methods posing health and ecological risks. The study by Yeo et al., published in
Proving Sustainability: The Crucial Role of Life Cycle Assessment for our Upcycling Innovations
The ACTPAC project aims to convert polyethylene (PE) (fossil-based) into bio-based polyesters. Innovations on new biobased catalytic routes in ACTPAC will establish the most profit
ACTPAC at IFAT Munich 2024: From exploring the plastic recycling industry to unveiling the exploitation potential of ACTPAC results
IFAT Munich 2024, the world’s leading trade fair for water, sewage, waste, and raw materials management, concluded with remarkable achievements. Approximately 142,000 visitor