Biochar produced from the thermochemical conversion of biomass, provides a green and
sustainable platform for the preparation of various functional carbon materials (porous …

Biomass is the only renewable carbon source in the world and possesses a zero-carbon
footprint throughout its lifecycle. Biomass-based functional materials typically exhibit …

It is very important to find cheap and efficient catalysts for catalytic co-pyrolysis. Catalytic co-
pyrolysis of herb residue (HR) and reused polypropylene (PP) using Ni-X/biochar and ZSM …

Biomass is the only carbon-containing solid renewable resource with clean and
environmentally friendly attributes, and is abundant and widely distributed in nature. It is a …

Optimizing the catalytic pyrolysis process is a promising approach to enhance the quality of
the resulting products. Thus, four metals (Ni, Fe, Co, Cu) were loaded on biochar support to …

In this study, we evaluated the transformation of algal-based biochar into carbon nanotubes
by irradiation in a microwave oven at low energies (100–300 W). Three species of algae …

This review summarizes the up-to-date techniques devised to synthesize carbon nanotubes
(CNTs) from liquid or solid precursors of sustainable nature. The possibility to replace …

Agriculture and industrial wastes (AIWs) have attracted much attention because of their huge
environmental, economic, and social impacts. AIWs have been considered a crucial link of a …

Low-cost biochar is a promising catalyst support for catalytic pyrolysis to produce pyrolysis
oil, pyrolysis gas, and carbon nanomaterials (CNMs). The effect of different Ni/biochar (four …

Co-pyrolysis of biomass and plastics wastes mixture into high-value products is a promising
means based on the view of waste-to-energy and economic. In this study, a series of novel …