Adsorptive removal of Pb(II) ions from aqueous solutions by thiourea-functionalized magnetic ZnO/nanocellulose composite: Optimization by response surface methodology (RSM)

Alipour, Arash; Zarinabadi, Soroush; Azimi, Alireza; Mirzaei, Mehran

doi:10.1016/j.ijbiomac.2020.02.109

Cited by 70 publications

(22 citation statements)

References 63 publications

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“…is is because the surface area of NaIO 4 -CNM adsorbent was relatively increased by the surface functionalization of CNM with NaIO 4 . Supporting this result, Chen et al [58] reported research on As(III) removal by nanostructured dialdehyde cellulose−cysteine microscale and nanoscale fibers.…”

Section: Effect Of Initial Concentrationmentioning

confidence: 67%

Preparation and Characterization of Functionalized Cellulose Nanomaterials (CNMs) for Pb(II) Ions Removal from Wastewater

Tsade

Anshebo

Sabir

2021

Journal of Chemistry

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Due to their remarkable properties, cellulose nanomaterials are emerging materials for wastewater (WW) treatment. In this study, both pristine cellulose nanomaterial (CNM) and sodium periodate modified cellulose nanomaterial (NaIO4-CNM) were prepared from the stem of the Erythrina brucei plant for the removal of Pb(II) ions from WW. As-prepared CNMs were characterized by X-ray diffraction (XRD), Fourier transform infrared (FT-IR), scanning electron microscope (SEM), and thermogravimetric analysis with differential thermogravimetry (TGA-DTG) analysis. The as-prepared and characterized CNMs were tested for the removal of Pb(II) ions from secondary run-off wastewater (SERWW). Langmuir and Freundlich adsorption isotherms were certainly fixed to a maximum Pb(II) ions uptake capability (Qmax) of 91.74 and 384.62 mg g−1 by CNM and NaIO4-CNM adsorbents, respectively. The pseudo-second-order (PSO) kinetics model was well fitted to the uptake process. Results revealed that the percentage removal (%R) of Pb(II) ions was decreased by the presence of nitrogen and organic matter, but not affected by the presence of phosphorous in SERWW. Due to its high efficiency, NaIO4-CNM was selected for the regeneration study. The regeneration study was conducted after desorption of Pb(II) ions from the adsorbent by the addition of HCl, and the regenerated sorbent was reused as an adsorbent for at least 13 successive cycles. The results indicated excellent recycling capabilities, and the adsorbent was used as adsorbing material for the removal of Pb(II) ions from SERWW after 13 successive cycles without significant efficient loss.

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Section: Effect Of Initial Concentrationmentioning

confidence: 67%

Preparation and Characterization of Functionalized Cellulose Nanomaterials (CNMs) for Pb(II) Ions Removal from Wastewater

Tsade

Anshebo

Sabir

2021

Journal of Chemistry

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“…The former as being tested for its biomimetic skin with adequate mechanical properties containing nanocellulose or microcrystalline cellulose (MCC) for instance of 50 µm in size where the hydrogel was fabricated chemically via crosslinking and under cryogenically lower temperature of − 20 °C. Meanwhile, in the latter, a modified (Anju, 2021;Wang et al, 2022;Zhang et al, 2022a) Cellular/cellulose membrane, biomembrane, nanocellulose membrane, pollutant adsorbent Downstream processing industry (Alipour et al, 2020;Das et al, 2021;Perendija et al, 2021;Wang et al, 2020;Zhang et al, 2022b) Leaf fibers, sisal fibers, agrofibers, cellulose fibers Foams, polyester, PLA, biodegradable plastics (Bendourou et al, 2021;Guimarães et al, 2021;Jabber et al, 2021;Sathees Kumar et al, 2021;Siva et al, 2020) Modified/regenerated cotton cellulose Fabric industry (Khalili et al, 2021;Štular et al, 2021) Wood-cellulose fiber, graphitic cellufoil, SnS/ carbonized cellulose film Energy industry, battery industries (lithiumion battery), nanogenerators (Yi et al, 2021;Yuan et al, 2021;Zhang et al, 2021) Fluorescent smart materials Fluorescent application (Delavari et al, 2020;Kalita et al, 2015;Nawaz et al, 2021) Dietary fiber, bacterial cellulose Food industry (Lin et al, 2020;Revin et al, 2018;Zhu et al, 2022)…”

Section: Cellulosic Fibersmentioning

confidence: 99%

“…Fluorescent smart materials support security via fluorescence emission (fluorescent latex nanoparticles, autofluorescent nanocrystals) in anticounterfeiting inks, security documents, sensor, manufacturing, biomedical, and pharmaceutical industries (Delavari et al, 2020;Kalita et al, 2015;Nawaz et al, 2021). In addition to all these, CFs are also fabricated as membrane or a pollutant removal adsorbent in downstream processing industries (Alipour et al, 2020;Das et al 2021;Perendija et al, 2021;Wang et al, 2020;Zhang et al, 2022b). Besides, CFs from environmental or agricultural wastes are also being innovatively converted as asphalt strength-based product as seen in transportation industries (Aljubory et al 2021;Li et al, 2021a).…”

Section: Cfsmentioning

confidence: 99%

“…The BC-MeO hybrid, namely, BC-ZnO, has reliable antibacterial characteristics investigated for wound healing cases in biomedical application. Above-all, besides knowing that various precursors could be investigated for these three (Alipour et al, 2020;Araújo et al, 2019;Mahmood et al, 2016;Ninomiya et al, 2017;Rambabu et al, 2016) Oil palm frond cellulose fibers, natural fibers, bagasse powder, nanocrystalline cellulose X-ray diffraction (XRD); powder X-ray diffractometry (PXRD) To analyze the crystallinity index, i.e., using Segal equation (Segal et al, 1959) (Araújo et al, 2019;Azizan et al, 2021;Mahmood et al, 2017;Ninomiya et al, 2017;Qian et al, 2021) Oil palm frond CFs (OPF)…”

Section: Nanocomposite With Synthesized Nanoparticlesmentioning

confidence: 99%

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Cellulosic fiber nanocomposite application review with zinc oxide antimicrobial agent nanoparticle: an opt for COVID-19 purpose

Azizan

Samsudin

Baharin

et al. 2022

Environ Sci Pollut Res

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Cellulosic fiber (CF) in nanoform is emergingly finding its way for COVID-19 solution for instance via nanocomposite/ nanoparticle from various abundant biopolymeric waste materials, which may not be widely commercialized when the pandemic strikes recently. The possibility is wide open but needs proper collection of knowledge and research data. Thus, this article firstly reviews CF produced from various lignocellulosic or biomass feedstocks' pretreatment methods in various nanoforms or nanocomposites, also serving together with metal oxide (MeO) antimicrobial agents having certain analytical reporting. CF-MeO hybrid product can be a great option for COVID-19 antimicrobial resistant environment to be proposed considering the long-established CF and MeO laboratory investigations. Secondly, a preliminary pH investigation of 7 to 12 on zinc oxide synthesis discussing on Fouriertransform infrared spectroscopy (FTIR) functional groups and scanning electron microscope (SEM) images are also presented, justifying the knowledge requirement for future stable nanocomposite formulation. In addition to that, recent precursors suitable for zinc oxide nanoparticle synthesis with emergingly prediction to serve as COVID-19 purposes via different products, aligning with CFs or nanocellulose for industrial applications are also reviewed.

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“…There is a de nite link between protonating functional groups of ligands and lose their capability to complex heavy metal ions. At high pH values, most of As (III) species are present in the form of metal hydroxides [29]. However, in a highly acidic (<5) or basic medium (> 8), the uorescence signal change reduced considerably.…”

Section: Optimization Of Experimental Conditionmentioning

confidence: 99%

A Chelation-enhanced Fluorescence Assay using Thiourea Capped Carbonaceous Fluorescent Nanoparticles for As (III) Detection in Water Samples

Mohammadi

Salimi

et al. 2021

J Fluoresc

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Herein, we designed a sensitive and selective "Turn-On" uorescence nanosensor using water-soluble carbonaceous uorescent nanomaterials (CFNs) functionalized with thiourea (CFNs-thiourea) for e cient detection of trace amounts of arsenic (III) in aqueous samples. The CFNs and CFNs-Thiourea were characterized by transmission electron microscopy (TEM), UV-Visible spectroscopy (UV-vis) and Fourier transformed infrared spectroscopy (FTIR). The emission peak intensity of proposed nanosensor at 425 nm was gradually enhanced on arsenite addition in wide detection range (3.3-828.5 µg L -1 ) attributed to the binding of arsenite species with sulfur groups of CFNs-thiourea. The limit of detection (LOD) was 0.48 µg L -1 being much lower than the World Health Organization (WHO) recommended threshold value of 10 µg L -1 . Furthermore, the as prepared thiourea -CFNs exhibited an superb selectivity for As (III) compared various cations and anions such as; NO 3 − , NO

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Adsorptive removal of Pb(II) ions from aqueous solutions by thiourea-functionalized magnetic ZnO/nanocellulose composite: Optimization by response surface methodology (RSM)

Cited by 70 publications

References 63 publications

Preparation and Characterization of Functionalized Cellulose Nanomaterials (CNMs) for Pb(II) Ions Removal from Wastewater

Preparation and Characterization of Functionalized Cellulose Nanomaterials (CNMs) for Pb(II) Ions Removal from Wastewater

Cellulosic fiber nanocomposite application review with zinc oxide antimicrobial agent nanoparticle: an opt for COVID-19 purpose

A Chelation-enhanced Fluorescence Assay using Thiourea Capped Carbonaceous Fluorescent Nanoparticles for As (III) Detection in Water Samples

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