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Waste-Derived Carbon Nanostructures

By: By: Series: Nanostructure Science and TechnologyPublication details: Cham, Switzerland: Springer Cham, 2025Description: 382ISBN:
  • 9783031752469
Subject(s): DDC classification:
  • 620.5 TAL
Summary: This contributed volume focuses on the development of waste-derived carbon nanostructures (WD-CNs) from various waste materials, such as municipal garbage, plastics, industrial waste, and agricultural residues, highlighting their potential for recycling in a circular economy. It explores synthetic processes that convert waste into valuable carbon nanomaterials, reducing the need for cleansing and lowering the carbon footprint compared to traditional methods. The book also examines the functionalization of WD-CNs for diverse applications in energy, environment, and biology, promoting sustainable innovation and commercialization of green technologies. It is a useful tool for researchers, graduate students and professionals working in the fields of materials science, nanotechnology, environmental science, and chemical engineering.
List(s) this item appears in: New Arrivals August 2025 -Business & Management
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Holdings
Item type Current library Call number Copy number Status Date due Barcode Item holds
Reference Book Reference Book Alliance School of Business 620.5 TAL (Browse shelf(Opens below)) 1 Not for loan A29047
Total holds: 0

This contributed volume focuses on the development of waste-derived carbon nanostructures (WD-CNs) from various waste materials, such as municipal garbage, plastics, industrial waste, and agricultural residues, highlighting their potential for recycling in a circular economy. It explores synthetic processes that convert waste into valuable carbon nanomaterials, reducing the need for cleansing and lowering the carbon footprint compared to traditional methods. The book also examines the functionalization of WD-CNs for diverse applications in energy, environment, and biology, promoting sustainable innovation and commercialization of green technologies. It is a useful tool for researchers, graduate students and professionals working in the fields of materials science, nanotechnology, environmental science, and chemical engineering.

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