Spent lithium-ion batteries rich in transition metals are highly potential to catalyze the
biomass pyrolysis process. This research provided insight into the performance and …

Thermal treatment is an efficient method to recycle spent lithium-ion batteries and the
thermal treatment products are rich in valuable metals with catalytic activity such as Co and …

As a renewable energy source, hydrogen production from biomass pyrolysis is one of the
effective ways to promote global sustainable development. Herein, the inherent Al foils and …

Fast-rising population and economic growth are inducing a rapid increase in the energy
demand. To date, fossil fuels constitute the primary energy source, but their combustion …

Minimizing the energy consumption and expanding the usage of renewable material in the
recovery of spent lithium ion batteries (LIBs) are significant for exploring more sustainable …

The development of spent lithium-ion batteries (LIBs) recycling technologies can effectively
alleviate environmental pressure and conserve metal resources. We propose a win-win …

This research work studied the pyrolysis characteristics of main biomass components (ie
cellulose, lignin) in the presence of the spent Li-ion battery cathode (BC) enriched in …

Biomass is regarded as the only carbon-containing renewable energy source and has
performed an increasingly important role in the gradual substitution of conventional fossil …

Normally, the spent catalyst (V 2 O 5-WO 3/TiO 2, denoted as VWTi) is dumped as a solid
waste after denitrogenation of flue gas through selective catalyst reduction (SCR). However …

The synergistic pyrolysis has been increasingly used for recycling spent lithium-ion batteries
(LIBs) and organic wastes (hydrogen and carbon sources), which are in-situ transformed …