Batteries, Vol. 8, Web pages 28: On the Road to Sustainable Energy Storage space Technologies: Synthesis of Anodes for Na-Ion Batteries from Biowaste
Batteries doi: 10. 3390/batteries8040028
Authors: Nekane Nieto Olatz Noya Amaia Iturrondobeitia Paula Sanchez-Fontecoba Usue Pérez-López Verónica Palomares Alexander Lopez-Urionabarrenechea Teófilo Rojo
Difficult carbon is among the most guaranteeing anode materials for sodium-ion batteries. In this particular work, brand new types of biomass-derived hard carbons were obtained via pyrolysis of different types of agro-industrial biowaste (corncob, apple pomace, olive mill sound waste, defatted grape seeds and dried grape skin). Furthermore, the influence associated with pretreating the biowaste examples by hydrothermal carbonization and acid hydrolysis was furthermore studied. Except for the olive mill solid waste, discharge capacities typical of biowaste-derived hard carbons had been obtained in most case (& amp; asymp; 300 mAh& amp; middot; g& amp; minus; 1 at C/15). Furthermore, apparently hydrothermal carbonization could enhance the discharge capacity of biowaste samples made from different nature in high cycling rates, which usually are the closest situations to real applications.
