Bio-separator and bio-synthesizer of metallic nanoparticles - A new vision in bioremediation

•A bio-separator and biosynthesizer synchronics of NPs from dead cells of the yeast.•Formation of bimetallic systems of NPs: extracellularly and intracellularly.•Bioremediation of bimetallic systems through an environmentally safe technique.•Synthesis of NPs with high aggregate value compared to the...

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Published in	Materials letters Vol. 306; p. 130878
Main Authors	Salvadori, Marcia Regina, Ando, Rômulo Augusto, Corrêa, Benedito
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 01.01.2022 Elsevier BV
Subjects	Aqueous solutions Bimetals Bio-separator Bioremediation Copper Dead cells Materials science Metals Nanoparticles Nickel oxides Separators Silver Synthesis Yeast Nanoparticles Synthesis Yeast Dead cells Metals Bio-separator
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Abstract	•A bio-separator and biosynthesizer synchronics of NPs from dead cells of the yeast.•Formation of bimetallic systems of NPs: extracellularly and intracellularly.•Bioremediation of bimetallic systems through an environmentally safe technique.•Synthesis of NPs with high aggregate value compared to the raw metal.•Synthesis and separation of Ni/NiO NPs, Ag/Ag2O and Cu NPs. The conception of a bio-separator and bio-synthesizer synchronics of nanoparticles (NPs) from dead cells of the yeast Rhodotorula mucilaginosa (R. mucilaginosa), presents itself as a strong candidate for bioremediation. In this research, the dead yeast cells allowed the synthesis and simultaneous separation of silver, copper and nickel NPs, in aqueous medium, under green physical–chemical conditions. Through the yeast cell wall occurred, the formation of two bimetallic systems of NPs: one of Ni/NiO NPs extracellularly - Ag/Ag2O NPs intracellularly, and another of Ni/NiO NPs extracellularly - Cu NPs intracellularly. This sustainable protocol represents an efficient metals uptake method. Such natural bioprocess is a rational platform for the distinct synthesis of NPs (extra and intracellularly), for possible use in nanobioremediation of sites impacted by multiple toxic metals, being easy to handle, effective cost, and concomitant synthesis of NPs.
AbstractList	The conception of a bio-separator and bio-synthesizer synchronics of nanoparticles (NPs) from dead cells of the yeast Rhodotorula mucilaginosa (R. mucilaginosa), presents itself as a strong candidate for bioremediation. In this research, the dead yeast cells allowed the synthesis and simultaneous separation of silver, copper and nickel NPs, in aqueous medium, under green physical–chemical conditions. Through the yeast cell wall occurred, the formation of two bimetallic systems of NPs: one of Ni/NiO NPs extracellularly - Ag/Ag2O NPs intracellularly, and another of Ni/NiO NPs extracellularly - Cu NPs intracellularly. This sustainable protocol represents an efficient metals uptake method. Such natural bioprocess is a rational platform for the distinct synthesis of NPs (extra and intracellularly), for possible use in nanobioremediation of sites impacted by multiple toxic metals, being easy to handle, effective cost, and concomitant synthesis of NPs. •A bio-separator and biosynthesizer synchronics of NPs from dead cells of the yeast.•Formation of bimetallic systems of NPs: extracellularly and intracellularly.•Bioremediation of bimetallic systems through an environmentally safe technique.•Synthesis of NPs with high aggregate value compared to the raw metal.•Synthesis and separation of Ni/NiO NPs, Ag/Ag2O and Cu NPs. The conception of a bio-separator and bio-synthesizer synchronics of nanoparticles (NPs) from dead cells of the yeast Rhodotorula mucilaginosa (R. mucilaginosa), presents itself as a strong candidate for bioremediation. In this research, the dead yeast cells allowed the synthesis and simultaneous separation of silver, copper and nickel NPs, in aqueous medium, under green physical–chemical conditions. Through the yeast cell wall occurred, the formation of two bimetallic systems of NPs: one of Ni/NiO NPs extracellularly - Ag/Ag2O NPs intracellularly, and another of Ni/NiO NPs extracellularly - Cu NPs intracellularly. This sustainable protocol represents an efficient metals uptake method. Such natural bioprocess is a rational platform for the distinct synthesis of NPs (extra and intracellularly), for possible use in nanobioremediation of sites impacted by multiple toxic metals, being easy to handle, effective cost, and concomitant synthesis of NPs.
ArticleNumber	130878
Author	Corrêa, Benedito Salvadori, Marcia Regina Ando, Rômulo Augusto
Author_xml	– sequence: 1 givenname: Marcia Regina surname: Salvadori fullname: Salvadori, Marcia Regina email: mrsal@usp.br, mrsalvadori@yahoo.com.br organization: Department of Microbiology, Biomedical Institute II, University of São Paulo, São Paulo 05508000, Brazil – sequence: 2 givenname: Rômulo Augusto surname: Ando fullname: Ando, Rômulo Augusto organization: Department of Fundamental Chemistry, Institute of Chemistry, University of São Paulo, São Paulo 05508000, Brazil – sequence: 3 givenname: Benedito surname: Corrêa fullname: Corrêa, Benedito organization: Department of Microbiology, Biomedical Institute II, University of São Paulo, São Paulo 05508000, Brazil
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Cites_doi	10.3389/fmicb.2020.590631 10.3390/molecules191220941 10.1038/s41598-019-51184-y 10.1007/s002329900059 10.1371/journal.pone.0087968 10.1039/C6RA07274G 10.1016/j.cis.2010.02.001 10.1371/journal.pone.0129799
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References	Bzducha-Wróbel, Błażejak, Kawarska, Stasiak-Różańska, Gientka, Majewska (b0030) 2014; 19 Salvadori, Ando, Oller do Nascimento, Corrêa, Bansal (b0010) 2014; 9 Zamponi, Bourinet, Snutch (b0040) 1996; 151 Stirke, Celiesiute-Germaniene, Zimkus, Zurauskiene, Simonis, Dervinis, Ramanavicius, Balevicius (b0035) 2019; 9 Salvadori, Ando, Oller Nascimento, Corrêa, Mishra (b0050) 2015; 10 Mandeep (b0005) 2020; 11 Salvadori, Ando, Nascimento, Corrêa (b0020) 2017; 52 Narayanan, Sakthivel (b0045) 2010; 156 Salvadori, Ando, Muraca, Knobel, Oller Nascimento, Corrêa (b0015) 2016; 6 Das, Chakraborty, Chatterjee, Kumar (b0025) 2018; 5 Salvadori (10.1016/j.matlet.2021.130878_b0015) 2016; 6 Bzducha-Wróbel (10.1016/j.matlet.2021.130878_b0030) 2014; 19 Mandeep (10.1016/j.matlet.2021.130878_b0005) 2020; 11 Zamponi (10.1016/j.matlet.2021.130878_b0040) 1996; 151 Salvadori (10.1016/j.matlet.2021.130878_b0020) 2017; 52 Das (10.1016/j.matlet.2021.130878_b0025) 2018; 5 Stirke (10.1016/j.matlet.2021.130878_b0035) 2019; 9 Narayanan (10.1016/j.matlet.2021.130878_b0045) 2010; 156 Salvadori (10.1016/j.matlet.2021.130878_b0050) 2015; 10 Salvadori (10.1016/j.matlet.2021.130878_b0010) 2014; 9
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SubjectTerms	Aqueous solutions Bimetals Bio-separator Bioremediation Copper Dead cells Materials science Metals Nanoparticles Nickel oxides Separators Silver Synthesis Yeast
Title	Bio-separator and bio-synthesizer of metallic nanoparticles - A new vision in bioremediation
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