Sustainable Carbon Materials from Hydrothermal Processes by Maria-Magdalena Titirici

By Maria-Magdalena Titirici

The creation of affordable and environmentally pleasant excessive appearing carbon fabrics is essential for a sustainable destiny. Sustainable Carbon fabrics from Hydrothermal Processes describes a sustainable and replacement strategy to produce carbon from biomass in water at low temperatures, a approach often called Hydrothermal Carbonization (HTC).

Sustainable Carbon fabrics from Hydrothermal Processes offers an outline of this new and swiftly constructing box, discussing a variety of man made techniques, characterization of the ultimate items, and smooth fields of program for of sustainable carbon materials.

Topics lined include:

• Green carbon materials
• Porous hydrothermal carbons
• HTC for the construction of invaluable carbon hybrid materials
• Functionalization  of hydrothermal carbon materials
• Characterization of HTC materials
• Applications of HTC in glossy nanotechnology: strength garage, electrocatalysis in gas cells, photocatalysis, fuel garage, water purification, sensors, bioapplications
• Environmental purposes of HTC expertise: Biochar construction, carbon sequestration, and waste conversion
• Scale-up in HTC

Sustainable Carbon fabrics from Hydrothermal Processes will function a accomplished advisor for college students and beginners within the box, in addition to offering a important resource of data for researchers and traders searching for substitute applied sciences to transform biomass into beneficial products.

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Extra info for Sustainable Carbon Materials from Hydrothermal Processes

Example text

The presented methods allow tailoring of the final structure via the tools of colloid and polymer science, leading to selectable material morphology for a wide range of applications. 2 Templating – An Opportunity for Pore Morphology Control In relation to the introduction of porosity into carbon materials, Knox et al. [10] was one of the first to synthesize nanoporous carbon materials with a variety of pore structures using the appropriate nanostructured silica materials as sacrificial templates [10].

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