Your search keyword '"Arshad, Sazmal E."' showing total 6 results

1. Poly(amidoxime) ligand derived from waste palm fiber for the removal of heavy metals from electroplating wastewater

Author

Rahman, Md Lutfor, Fui, Choong Jian, Sarjadi, Mohd Sani, Arshad, Sazmal E., Musta, Baba, Abdullah, Mohd Harun, Sarkar, Shaheen M., and O’Reilly, Emmet J.

Published

2020

2. Synthesis of Tapioca Cellulose-based Poly(amidoxime) Ligand for Removal of Heavy Metal Ions.

Author

Rahman, Md Lutfor, Sarkar, Shaheen M., Farid, Eddy M., Arshad, Sazmal E., Sarjadi, M. S., and Wid, N.

Subjects

TAPIOCA, METAL ions, LIGANDS (Chemistry), CELLULOSE synthase, BLOCK copolymers

Abstract

Poly(acrylonitrile)/cellulose block copolymer (PAN-b-cell) was prepared by using a free radical initiating process and then the nitrile functional groups of the PAN blocks of the copolymers were transformed into amidoxime ligands. The resulting poly(amidoxime) ligands could complex with heavy metal ions; for example, the reflectance spectra of the [Cu -ligand]n+ was found to be at the highest absorbance, about 94%, at pH 6. The pH was the key parameter for metal ions sensing by the ligand. The adsorption capacity for copper was very good, 272 mg g−1, with a fast adsorption rate (t1/2 = 10 min). The adsorption capacities for other heavy metal ions such as Fe3+, Cr3+, Co3+ and Ni2+ were also good, being 242, 219, 201 and 195 mg g−1, respectively, at pH 6. The heavy metal ions removal efficiency from water was 98% at low concentration. The data proved that the heavy metal ions adsorption onto the polymer ligands were well fitted with the Langmuir isotherm model (R2>0.99), which suggests that the cellulose-based adsorbent surface namely the poly(amidoxime) ligand, was homogenous and a monolayer. The reusability was examined by a sorption/desorption process for six cycles and the extraction efficiency was determined. This new adsorbent could be reused for 6 cycles without any significant loss in its original removal function. [ABSTRACT FROM AUTHOR]

Published

2018

3. Synthesis of tapioca cellulose-based poly(hydroxamic acid) ligand for heavy metals removal from water.

Author

Rahman, Md. Lutfor, Mandal, Hira Bablu, Sarkar, Shaheen M., Kabir, M. Nomani, Farid, Eddy M., Arshad, Sazmal E., and Musta, Baba

Subjects

CELLULOSE, TAPIOCA, HYDROXAMIC acids, HEAVY metals, COPOLYMERIZATION

Abstract

A graft copolymerization was performed using free radical initiating process to prepare the poly(methyl acrylate) grafted copolymer from the tapioca cellulose. The desired material is poly(hydroxamic acid) ligand, which is synthesized from poly(methyl acrylate) grafted cellulose using hydroximation reaction. The tapioca cellulose, grafted cellulose and poly(hydroxamic acid) ligand were characterized by Infrared Spectroscopy and Field Emission Scanning Electron Microscope. The adsorption capacity with copper was found to be good, 210 mg g−1with a faster adsorption rate (t1/2= 10.5 min). The adsorption capacities for other heavy metal ions were also found to be strong such as Fe3+, Cr3+, Co3+and Ni2+were 191, 182, 202 and 173 mg g−1, respectively at pH 6. To predict the adsorption behavior, the heavy metal ions sorption onto ligand were well-fitted with the Langmuir isotherm model (R2> 0.99), which suggest that the cellulose-based adsorbent i.e., poly(hydroxamic acid) ligand surface is homogenous and monolayer. The reusability was checked by the sorption/desorption process for six cycles and the sorption and extraction efficiency in each cycle was determined. This new adsorbent can be reused in many cycles without any significant loss in its original removal performances. [ABSTRACT FROM PUBLISHER]

Published

2016

4. Heavy Metals Removal from Electroplating Wastewater by Waste Fiber-Based Poly(amidoxime) Ligand.

Author

Rahman, Md. Lutfor, Wong, Zhi Jian, Sarjadi, Mohd Sani, Soloi, Sabrina, Arshad, Sazmal E., Bidin, Kawi, Musta, Baba, and Bulgariu, Laura

Subjects

HEAVY metals, ELECTROPLATING, WATER purification, FRUIT skins, SEWAGE, POLYACRYLONITRILES, SURFACE grafting (Polymer chemistry)

Abstract

An efficient and economical treatment technology for heavy metal removal from the electroplating wastewaters is needed for the water purification. Therefore, pure cellulosic materials were derived from two waste fiber (pandanus fruit and durian rind) and conversion of the cellulose into the poly(acrylonitrile)-grafted material was accomplished by free radical grafting system. Thereafter, poly(amidoxime) ligand was produced from the grafted materials. Sorption capacity (qe) of several toxic metals ions was found to be high, e.g., copper capacity (qe) was 298.4 mg g−1 at pH 6. In fact, other metal ions, such as cobalt chromium and nickel also demonstrated significant sorption capacity at pH 6. Sorption mechanism played acceptable meet with pseudo second-order rate of kinetic pattern due to the satisfactory correlation with the experimental sorption values. A significant correlation coefficient (R2 > 0.99) with Langmuir model isotherm showed the single or monolayer sorption occurred on the surfaces. The reusability study showed that the polymer ligand can be useful up to six cycles with minimum loss (7%) of efficiency and can be used in the extraction of toxic metal ions present in the wastewaters. Therefore, two types of electroplating wastewater were used in this study, one containing high concentration of copper (23 ppm) and iron (32 ppm) with trace level of others heavy metals (IWS 1) and another containing high concentration of copper (85.7 ppm) only with trace level of others heavy metals (IWS 2). This polymeric ligand showed acceptable removal magnitude, up to 98% of toxic metal ions can be removed from electroplating wastewater. [ABSTRACT FROM AUTHOR]

Published

2021

5. Waste Fiber-Based Poly(hydroxamic acid) Ligand for Toxic Metals Removal from Industrial Wastewater †.

Author

Rahman, Md. Lutfor, Wong, Zhi-Jian, Sarjadi, Mohd Sani, Joseph, Collin G., Arshad, Sazmal E., Musta, Baba, Abdullah, Mohd Harun, and Pizzi, Antonio

Subjects

HEAVY metals, SEWAGE, INDUSTRIAL wastes, HYDROXAMIC acids, WATER purification, INDUSTRIAL pollution, SURFACE grafting (Polymer chemistry), PHOSPHORESCENCE

Abstract

Toxic metals in the industrial wastewaters have been liable for drastic pollution hence a powerful and economical treatment technology is needed for water purification. For this reason, some pure cellulosic materials were derived from waste fiber to obtain an economical adsorbent for wastewater treatment. Conversion of cellulose into grafting materials such as poly(methyl acrylate)-grafted cellulose was performed by free radical grafting process. Consequently, poly(hydroxamic acid) ligand was produced from the grafted cellulose. The intermediate products and poly(hydroxamic acid) ligand were analyzed by FT-IR, FE-SEM, TEM, EDX, and XPS spectroscopy. The adsorption capacity (qe) of some toxic metals ions by the polymer ligand was found to be excellent, e.g., copper capacity (qe) was 346.7 mg·g−1 at pH 6. On the other hand, several metal ions such as cobalt chromium and nickel also demonstrated noteworthy sorption capacity at pH 6. The adsorption mechanism obeyed the pseudo second-order rate kinetic model due to the satisfactory correlated experimental sorption values (qe). Langmuir model isotherm study showed the significant correlation coefficient with all metal ions (R2 > 0.99), indicating that the single or monolayer adsorption was the dominant mode on the surface of the adsorbent. This polymer ligand showed good properties on reusability. The result shows that the adsorbent may be recycled for 6 cycles without any dropping of starting sorption capabilities. This polymeric ligand showed outstanding toxic metals removal magnitude, up to 90–99% of toxic metal ions can be removed from industrial wastewater. [ABSTRACT FROM AUTHOR]

Published

2021

6. Polymer Ligands Derived from Jute Fiber for Heavy Metal Removal from Electroplating Wastewater.

Author

Rahman, Md Lutfor, Fui, Choong Jian, Ting, Tang Xin, Sarjadi, Mohd Sani, Arshad, Sazmal E., and Musta, Baba

Subjects

POLLUTANTS, HEAVY metals, POLYACRYLONITRILES, JUTE fiber, POLYMERS, METAL fibers, CHROMIUM compounds

Abstract

Industrial operations, domestic and agricultural activities worldwide have had major problems with various contaminants caused by environmental pollution. Heavy metal pollution in wastewater also a prominent issue; therefore, a well built and economical treatment technology is demanded for pollution-free wastewater. The present work emphasized pure cellulose extracted from jute fiber and further modification was performed by a free radical grafting reaction, which resulted in poly(methyl acrylate) (PMA)-grafted cellulose and poly(acrylonitrile)-grafted cellulose. Subsequently, poly(hydroxamic acid) and poly(amidoxime) ligands were prepared from the PMA-grafted cellulose and PAN-grafted cellulose, respectively. An adsorption study was performed using the desired ligands with heavy metals such as copper, cobalt, chromium and nickel ions. The binding capacity (qe) with copper ions for poly(hydroxamic acid) is 352 mg g−1 whereas qe for poly(amidoxime) ligand it was exhibited as 310 mg g−1. Other metal ions (chromium, cobalt and nickel) show significance binding properties at pH 6. The Langmuir and Freundlich isotherm study was also performed. The Freundlich isotherm model showed good correlation coefficients for all metal ions, indicating that multiple-layers adsorption was occurred by the polymer ligands. The reusability was evaluated and the adsorbents can be reused for 7 cycles without significant loss of removal performance. Both ligands showed outstanding metals removal capacity from the industrial wastewater as such 98% of copper can be removed from electroplating wastewater and other metals (cobalt, chromium, nickel and lead) can also be removed up to 90%. [ABSTRACT FROM AUTHOR]

Published

2020