TY - BOOK ID - 136995453 TI - New Carbon Materials from Biomass and Their Applications AU - Bedia, Jorge AU - Belver, Carolina PY - 2022 PB - Basel MDPI Books DB - UniCat KW - bio-fuel KW - aspen plus KW - hydrogenation KW - simulation KW - economic analysis KW - biochar KW - pyrolysis KW - environmental conservation KW - soil ameliorant KW - biochar preparation KW - soil pollution KW - remediation KW - one-step method KW - carbonized sulfonation KW - response surface method KW - Salix carboniferous solid acid catalysts KW - biodiesel KW - artemisia selengensis KW - microwave pyrolysis KW - adsorbability KW - blended biochar pellet KW - modified Hyperbola KW - nutrient release KW - slow release fertilizer KW - tropical rainfed condition KW - crop productivity KW - root-zone soil KW - application depth KW - Sida hermaphrodita L. Rusby KW - seed conditioning KW - germination KW - propagation mix KW - vermicompost KW - chicken manure compost KW - lignocellulosic biomass KW - adsorption KW - carbonization KW - adsorbent KW - zinc KW - regeneration KW - greenhouse KW - production KW - seedlings KW - grape seeds KW - hydrothermal carbonization KW - hydrochar KW - activated carbon KW - sulfamethoxazole KW - biocarbon KW - biomass KW - foundry industry KW - cupola furnace KW - CO2 emission KW - briquetting KW - postcombustion CO2 capture KW - biomass-based adsorbents KW - cyclic breakthrough measurements KW - selectivity CO2/N2 KW - humid conditions KW - hierarchical porosity KW - steam activation KW - phenol adsorption KW - microplastics KW - bark KW - HTC KW - sewage sludge KW - methylene blue KW - water remediation KW - value-added product KW - waste-to-products KW - n/a UR - https://www.unicat.be/uniCat?func=search&query=sysid:136995453 AB - Carbon-based materials, such as chars, activated carbons, one-dimensional carbon nanotubes, and two-dimensional graphene nanosheets, have shown great potential for a wide variety of applications. These materials can be synthesized from any precursor with a high proportion of carbon in its composition. Although fossil fuels have been extensively used as precursors, their unstable cost and supply have led to the synthesis of carbon materials from biomass. Biomass covers all forms of organic materials, including plants both living and in waste form and animal waste products. It appears to be a renewable resource because it yields value-added products prepared using environmentally friendly processes. The applications of these biomass-derived carbon materials include electronic, electromagnetic, electrochemical, environmental and biomedical applications. Thus, novel carbon materials from biomass are a subject of intense research, with strong relevance to both science and technology. The main aim of this reprint is to present the most relevant and recent insights in the field of the synthesis of biomass-derived carbons for sustainable applications, including adsorption, catalysis and/or energy storage applications. ER -