Green biochar-based adsorbent for radiocesium and Cu, Ni, and Pb removal

Thermochemical conversion of garden waste to biochar was carried out to prepare a green adsorbent for the removal of Cs, Cu, Ni, and Pb, which was characterized by XPS, SEM–EDX, and FT-IR analyses. The biocharˊs adsorption capacity was 20.5(Cs), 25.2(Cu), 12.4(Ni), and 45.9(Pb) mg g −1 and demonstra...

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Published in	Journal of radioanalytical and nuclear chemistry Vol. 332; no. 10; pp. 4141 - 4155
Main Authors	Mészároš, Lukáš, Šuránek, Matej, Melichová, Zuzana, Frišták, Vladimír, Ďuriška, Libor, Kaňuchová, Mária, Soja, Gerhard, Pipíška, Martin
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.10.2023 Springer Nature B.V
Subjects	Adsorbents Adsorption Cesium 137 Chemisorption Chemistry Chemistry and Materials Science Copper Diagnostic Radiology Hadrons Heavy Ions Inorganic Chemistry Nickel Nuclear Chemistry Nuclear Physics Physical Chemistry Radioisotopes Sorbents X ray photoelectron spectroscopy Garden waste Adsorption Biochar Heavy metals Radiocesium
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Abstract	Thermochemical conversion of garden waste to biochar was carried out to prepare a green adsorbent for the removal of Cs, Cu, Ni, and Pb, which was characterized by XPS, SEM–EDX, and FT-IR analyses. The biocharˊs adsorption capacity was 20.5(Cs), 25.2(Cu), 12.4(Ni), and 45.9(Pb) mg g −1 and demonstrated satisfactory performance for different pH values. The kinetics data evaluation revealed that besides chemisorption, intraparticle diffusion contributes to metal removal. Moreover, the physical and structural properties of biochar play an important role in adsorption. Results indicate the suitability of using GW biochar as an alternative sorbent for both radionuclides and metal extraction.
AbstractList	Thermochemical conversion of garden waste to biochar was carried out to prepare a green adsorbent for the removal of Cs, Cu, Ni, and Pb, which was characterized by XPS, SEM–EDX, and FT-IR analyses. The biocharˊs adsorption capacity was 20.5(Cs), 25.2(Cu), 12.4(Ni), and 45.9(Pb) mg g−1 and demonstrated satisfactory performance for different pH values. The kinetics data evaluation revealed that besides chemisorption, intraparticle diffusion contributes to metal removal. Moreover, the physical and structural properties of biochar play an important role in adsorption. Results indicate the suitability of using GW biochar as an alternative sorbent for both radionuclides and metal extraction. Thermochemical conversion of garden waste to biochar was carried out to prepare a green adsorbent for the removal of Cs, Cu, Ni, and Pb, which was characterized by XPS, SEM–EDX, and FT-IR analyses. The biocharˊs adsorption capacity was 20.5(Cs), 25.2(Cu), 12.4(Ni), and 45.9(Pb) mg g −1 and demonstrated satisfactory performance for different pH values. The kinetics data evaluation revealed that besides chemisorption, intraparticle diffusion contributes to metal removal. Moreover, the physical and structural properties of biochar play an important role in adsorption. Results indicate the suitability of using GW biochar as an alternative sorbent for both radionuclides and metal extraction. Abstract Thermochemical conversion of garden waste to biochar was carried out to prepare a green adsorbent for the removal of Cs, Cu, Ni, and Pb, which was characterized by XPS, SEM–EDX, and FT-IR analyses. The biocharˊs adsorption capacity was 20.5(Cs), 25.2(Cu), 12.4(Ni), and 45.9(Pb) mg g −1 and demonstrated satisfactory performance for different pH values. The kinetics data evaluation revealed that besides chemisorption, intraparticle diffusion contributes to metal removal. Moreover, the physical and structural properties of biochar play an important role in adsorption. Results indicate the suitability of using GW biochar as an alternative sorbent for both radionuclides and metal extraction.
Author	Soja, Gerhard Kaňuchová, Mária Šuránek, Matej Pipíška, Martin Mészároš, Lukáš Melichová, Zuzana Frišták, Vladimír Ďuriška, Libor
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Snippet	Thermochemical conversion of garden waste to biochar was carried out to prepare a green adsorbent for the removal of Cs, Cu, Ni, and Pb, which was... Abstract Thermochemical conversion of garden waste to biochar was carried out to prepare a green adsorbent for the removal of Cs, Cu, Ni, and Pb, which was...
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SubjectTerms	Adsorbents Adsorption Cesium 137 Chemisorption Chemistry Chemistry and Materials Science Copper Diagnostic Radiology Hadrons Heavy Ions Inorganic Chemistry Nickel Nuclear Chemistry Nuclear Physics Physical Chemistry Radioisotopes Sorbents X ray photoelectron spectroscopy
Title	Green biochar-based adsorbent for radiocesium and Cu, Ni, and Pb removal
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