Utilizing Response Surface Method for Optimization of the Removing Cu(II) Ions from Aqueous Solutions Using New Magnetic Chitosan-Based Nanocomposites Containing N-Nicotinyl Phosphoric Triamides

Shahin Rezaei Jamalabadi; Nasrin Oroujzadeh

Utilizing Response Surface Method for Optimization of the Removing Cu(II) Ions from Aqueous Solutions Using New Magnetic Chitosan-Based Nanocomposites Containing N-Nicotinyl Phosphoric Triamides

محل انتشار: Iranian Journal of Chemistry and Chemical Engineering، دوره: 42، شماره: 10

سال انتشار: 1402

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 63

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https://civilica.com/doc/2281921

شناسه ملی سند علمی:

JR_IJCCE-42-10_008

تاریخ نمایه سازی: 17 خرداد 1404

چکیده مقاله:

One of the newest methods to remove pollutants from water is the use of magnetic chitosan nanocomposites. Here for the first time, we used two phosphoramide compounds, N-Nicontinyl-N', N"-bis (piperidinyl) phosphoric triamide (P۱) and N-Nicontinyl- N', N"-bis (۴-methyl piperidinyl) phosphoric triamide (P۲), in the structure of chitosan-based magnetic nanocomposites for the removal of Cu (II) ions from aqueous solution. The two chitosan/Fe۳O۴/ phosphoric triamide nanocomposites, NC۱ and NC۲, prepared using P۱ and P۲ respectively, were characterized using XRD, EDX, VSM, SEM, BET, and BJH methods. Removal of Cu (II) ions from polluted water was tested in different user conditions: pH (۳-۱۱), adsorbent dosages (۵-۲۵mg), and contact time of adsorbent with aqueous solutions (۵-۶۰۰ min). AAS (Atomic Absorption Spectroscopy) results showed that with increasing pH from ۳ to ۹, the amount of removal of Cu(II) ion increased, and with increasing pH from ۹ to ۱۱, the removal rate decreased. Heightening the contact time until ۴۵۱ minutes also enhanced the removal efficiency up to ۹۷.۴۴%; After this time, the reduction of the removal amount was observed probably due to the desorption phenomena. Similarly, with the increasing amount of adsorbent (from ۵ to ۲۵ mg), the removal of Cu(II) ion increased too. Using Response Surface Modeling (RSM) the different conditions were transformed into RSM parameters and a second-order quadratic model was built to minimize the number of runs (۳۶ runs) and also predict responses. A good correlation (with R۲ = ۰.۹۲۳۷) was found between the experiment and the statistical model, for removing Cu(II) ions from the aqueous solution using these adsorbents.

کلیدواژه ها:

Chitosan ، Fe۳O۴ ، Nanocomposite ، N-Nicotinyl Phosphoric triamde ، Removal of Cu (II) ، Response surface method

نویسندگان

Shahin Rezaei Jamalabadi

Department of Chemical Technologies, Iranian Research Organization for Science and Technology (IROST), Tehran, I.R. IRAN

Nasrin Oroujzadeh

Department of Chemical Technologies, Iranian Research Organization for Science and Technology (IROST), Tehran, I.R. IRAN

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۱] Savenije H.H.G., Why Water is not an Ordinary Economic ...
Aguilera-Klink F., érez-MorianaE. P., Sánchez-Garcıa J., The Social Construction of ...
Kinson K., Belcher C.B., The Determination of Minor Amounts of ...
Xu J., Yang L., Wang Z., Dong G., Huang J., ...
Bhatnagar A., Sillanpää M., Utilization of Agro-Industrial and Municipal Waste ...
Bhatnagar A., Kumar E., Sillanpää M., Fluoride Removal from Water ...
Yavuz C.T., Prakash A., Mayo J.T., Colvin V.L., Magnetic Separations: ...
Chen A., et al., Novel Thiourea-Modified Magnetic Ion-Imprinted Chitosan/TiO۲ Composite ...
Li H., Bi S., Liu L., Dong W., Wang X., ...
Wang Y., Li L., Luo C., Wang X., Duan H., ...
Feng Y., et al., Adsorption of Cd (II) and Zn ...
Qu J.-B., Shao H.-H., Jing G.-L., Huang F., PEG-Chitosan-Coated Iron ...
Ashokkumar M., Sumukh K.M., Murali R., Narayanan N.T., Ajayan P.M., ...
Chung E.-Y., et al., Design of Deformable Chitosan Microspheres Loaded ...
Lee H. U., Song Y.S., Suh Y. ., Park C., ...
Yang G., et al., Cd (II) Removal from Aqueous Solution ...
Reddy D.H.K. Lee S.-M., Application of Magnetic Chitosan Composites for ...
Shen C., Shen Y., Wen Y., Wang H., Liu W., ...
Naghizadeh A., Ghafouri M., Synthesis of Low-Cost Nanochitosan from Persian ...
J Li., Y Zhang., Shen F., Yang Y., Comparison of ...
Chauhan N., Narang J., Pundir C.S., An Amperometric Glutathione Biosensor ...
Liu L., Xiao L., Zhu H., Shi X., Preparation of ...
Ma W., Ya F.-Q., Han M., Wang R., Characteristics of ...
Monier M., Ayad D.M., Abdel-Latif D.A., Adsorption of Cu(II), Cd(II) ...
Maghsoodi V., Mousavi S. M., Rajabi N., Batch Equilibrium and ...
N Oroujzadeh., Rezaei S., Fabrication of a Novel Magnetic Nanocomposite ...
Wu X., Hu L., Design and Synthesis of Peptide Conjugates ...
Jiang Y., Hu L., Peptide Conjugates of ۴-Aminocyclophosphamide as Prodrugs ...
Hu L., et al., “Synthesis and Structure–Activity Relationships of Nitrobenzyl ...
Jiang Y., DiPaola R.S., Hu L., Synthesis and Stereochemical Preference ...
Gholivand K., Molaei F., Oroujzadeh N., Mobasseri R., Naderi-Manesh H., ...
Oroujzadeh N., Rezaei S., New Nano Composite of N-Nicotinyl, N′, ...
Shariatinia Z., Nikfar Z., Synthesis and Antibacterial Activities of Novel ...
Omrani R., Ali R.B., Arfaoui Y., Raddaoui A., H Hmani., ...
Gholivand K., Valmoozi A.A.E., Bonsaii M., Synthesis, Biological Evaluation, QSAR ...
Gholivand K., Alizadehgan A.M., Mojahed F., Dehghan G., Mohammadirad A., ...
Gholivand K., et al., “Acetylcholinesterase Inhibition by Diaza-and Dioxophosphole Compounds: ...
Gholivand K., Shariatinia Z., Khajeh K., Naderimanesh H., Syntheses and ...
Ruiz M., Sastre A. M., Guibal E., Palladium Sorption on ...
Ngah W.S.W., Endud C.S., Mayanar R., Removal of Copper (II) ...
Li N., Bai R., Development of Chitosan-Based Granular Adsorbents for ...
Martinez L. et al., Cross-Linking of Chitosan and Chitosan/Poly (Ethylene ...
Davarnejad R., Karimi Dastnayi Z., Cd (II) Removal from Aqueous ...
Oroujzadeh N., Gholivand K., Jamalabadi N.R., New Carbacylamidophosphates Containing Nicotinamide: ...
Monier M., Ayad D.M., Wei Y., Sarhan A.A., Adsorption of ...
Goleij M., Fakhraee H., Response Surface Methodology Optimization of Cobalt ...
Chang Y.-C. Chen D.-H., Preparation and Adsorption Properties of Monodisperse ...
Langmuir I., the Constitution and Fundamental Properties of Solids and ...
Freundlich H.M.F., Over the Adsorption in Solution, J. Phys. Chem, ...
Preetha B. Viruthagiri T., Application of Response Surface Methodology for ...
Aslan N., Application of Response Surface Methodology and Central Composite ...
Davarnejad R., Panahi P., Cu (II) and Ni (II) Removal ...
Dean A., Voss D., Response Surface Methodology, Des. Anal. Exp., ...
Montgomery D.C., Introduction to Factorial Designs, Des. Anal. Exp., ۱۶۰–۱۹۷ ...
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Oroujzadeh N., New Chitosan-Silver Nanocomposites Containing N-Nicontinyl Phosphoric Triamide as ...
Scherrer P., Bestimmung Der Inneren Struktur und der Größe von ...
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Dastkhoon M. et al., Ultrasound Assisted Adsorption of Malachite Green ...
Huangfu M. et al., Study of the Effect of Absorbed ...
Reddad Z., Gerente C., Andres Y., Le Cloirec P., Adsorption ...
Tobin J.M., Cooper D.G., Neufeld R. J., Uptake of Metal ...
Chowdhury S. Saha P., Sea Shell Powder as a New ...
Li Y., Zeng X., Liu Y., Yan S., Hu Z., ...
Blöcher C., Dorda J., Mavrov V., Chmiel H., Lazaridis N.K., ...
Mavrov V., Erwe T., Blöcher C., Chmiel H., Study of ...
Juang R.-S., Shiau R.-C., Metal Removal from Aqueous Solutions Using ...
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Monier M., Adsorption of Hg۲+, Cu۲+ and Zn۲+ Ions from ...
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Huang G., Chuo Y., Zhang K., Jeffrey S.H.I., Adsorptive Removal ...
Zhang S., Zhou Y., Nie W., Song L., Zhang T., ...
Zhou Y.-T., Nie H.-L., Branford-White C., He Z.-Y., L.-M. Zhu, ...
Monier M., Ayad D.M., Wei Y., Sarhan A.A., Preparation and ...
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Kavitha B., Sarala Thambavani D., Artificial Neural Network Optimization of ...
Chubar N., Carvalho J.R., Correia M.J.N., Heavy Metals Biosorption on ...
Wu J., Zhang H., Oturan N., Wang Y., Chen L., ...
Long A., Zhang H., Lei Y., Surfactant Flushing Remediation of ...
Xu T., Liu Y., Ge F., Liu L., Ouyang Y., ...
Zinatizadeh A.A.L., Mohamed A.R., Abdullah A.Z., Mashitah M.D., Isa M.H., ...
Long A., Lei Y., Zhang H., Degradation of Toluene by ...
Qian Q., Mochidzuki K., Fujii T., Sakoda A., Removal of ...
El-Ashtoukhy E.-S., Amin N.K., Abdelwahab O., Removal of Lead (II) ...
Gode F., Atalay E.D., Pehlivan E., Removal of Cr (VI) ...
Nadeem R., Hanif M. A., Shaheen F., Perveen S., Zafar ...
Chen Y., Wang J., Removal of Radionuclide Sr۲+ Ions from ...

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