Open Access
ARTICLE
Development of Functional Adsorbent from Natural Biosorbent “Chitosan” by Radiation Induced Grafting of MAETC for the Removal of Arsenic (V)
VIJAYASRI. K1, ALKA TIWARI1,*, C.V. CHAUDHARI2
1
Government.V.Y.T. PG Autonomous college, Durg, (Chhattishgarh) India.
2
Radiation Technology Development Division, BARC, Mumbai, India.
* Corresponding Author: e-mail:
Journal of Polymer Materials 2019, 36(1), 53-73. https://doi.org/10.32381/JPM.2019.36.01.5
Abstract
High energy gamma radiation has been used to graft [2-(methacryloyloxyethyl)
trimethylammonium chloride (MAETC) onto chitosan by radiation grafting method. Grafting
yield was found to increase with the increase in radiation dose and monomer concentration.
Fourier Transform Infrared Spectroscopy (FTIR) was used to characterize the grafted polymer
and their morphological structure was analyzed by Scanning Electron Microscope (SEM).
As(V) ions uptake capacity of the adsorbent was evaluated in different pH, contact time,
temperature, adsorbent dose, and different arsenate ion concentration. The adsorption data
was fitted well in the Langmuir model and various static parameters were calculated. It is
stated that this chitosan-g-MAETC could be regenerated efficiently (>90 %) and used
repeatedly.
Keywords
Cite This Article
APA Style
K, V., TIWARI, A., CHAUDHARI, C. (2019). Development of functional adsorbent from natural biosorbent “chitosan” by radiation induced grafting of MAETC for the removal of arsenic (V). Journal of Polymer Materials, 36(1), 53-73. https://doi.org/10.32381/JPM.2019.36.01.5
Vancouver Style
K V, TIWARI A, CHAUDHARI C. Development of functional adsorbent from natural biosorbent “chitosan” by radiation induced grafting of MAETC for the removal of arsenic (V). J Polym Materials . 2019;36(1):53-73 https://doi.org/10.32381/JPM.2019.36.01.5
IEEE Style
V. K, A. TIWARI, and C. CHAUDHARI "Development of Functional Adsorbent from Natural Biosorbent “Chitosan” by Radiation Induced Grafting of MAETC for the Removal of Arsenic (V)," J. Polym. Materials , vol. 36, no. 1, pp. 53-73. 2019. https://doi.org/10.32381/JPM.2019.36.01.5