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Synthesis, Properties, and Application of Bio-Nanocomposites: Application of Nanobiochar and Biochar Nanocomposites in Environment
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Author(s): Jeremaih David Bala (Federal University of Technology, Minna, Nigeria), Oloruntoba Samuel Job (Federal University of Technology, Minna, Nigeria), Innocent Ojeba Musa (Skyline University, Nigeria), Al Hassan Abdullahi Abdul-Rahman (Federal University, Lokoja, Nigeria), Wama Binga Emmanuel (Taraba State University, Nigeria), Adamu Mustapha (Federal University of Technology, Minna, Nigeria), Nathaniel Adunbarin Abiodun (National Institute for Freshwater Fisheries Research, Nigeria)and Nathaniel Nwachukwu Friday (Federal University of Technology, Minna, Nigeria)
Copyright: 2026
Pages: 26
Source title:
Synthesis, Properties, and Applications of Bio-Nanocomposites
Source Author(s)/Editor(s): Kaizar Hossain (Asutosh College, India), Akil Ahmad (Prince Sattam bin Abdulaziz University, Saudi Arabia)and Mohammad Jawaid (United Arab Emirates University, Al Ain, UAE)
DOI: 10.4018/979-8-3373-2180-6.ch011
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Abstract
Modern society relies on nanobiochar and biochar nanocomposites as innovative materials to resolve major environmental issues alongside agricultural difficulties. Engineered biochar-based materials boost adsorption performance which makes them efficient tools for wastewater bioremediation mainly focused on heavy metal and organic substance elimination. Advanced surface properties coupled with improved porosity and nanoparticle functionalization allows them to efficiently adsorb pollutants which include arsenic and chromium along with lead, cadmium and copper. Research findings show nanobiochar exhibits better capabilities for extracting pollutants from water sources which renders them critical components in environmental sustainability operations. Nanobiochar proves crucial for agriculture by performing various functions outside wastewater treatment. Nanobiochar supports plant development through better soil nutritive value and enhanced nutrient absorption while maintaining soil acidity at stable levels. Nanobiochar functions as a soil additive that improves organic matter composition while preserving liquid retention while preventing harmful metal accumulation. Nanobiochar has demonstrated chemical residue removal ability by absorbing dangerous pesticide residues that target environmental toxicity. The antimicrobial capabilities of nanobiochar enable disease suppression in soil whereas chemical pesticides have less environmental benefits. kullanım of nanobiochar promotes beneficial microbial growth that upgrades fertilizer cycling operations while strengthening soil well-being. Through fertilizer application nanobiochar supports effective nutrient dispersal that prevents waste and decreases pollution impacts on the environment. Both nanobiochar and biochar nanocomposites serve as decisive elements for implementing sustainable environmental measures and agricultural practices. These materials show remarkable value by improving all elements of water purification and soil quality and crop productivity and microbial balance to resolve international concerns about environmental pollution and food shortages. Research development needs focused material optimization to establish these materials as crucial elements for ecological protection and resource management systems.
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