IJPR  articles are Indexed in SCOPUSClick Here     Impact Factor for Five Years is 0.13 (2013 - 2018).    

logo

INTERNATIONAL JOURNAL OF PHARMACEUTICAL RESEARCH

A Step Towards Excellence

IJPR included in UGC-Approved List of Journals - Ref. No. is SL. No. 4812 & J. No. 63703

Published by : Advanced Scientific Research
ISSN
0975-2366
Current Issue
No Data found.
Article In Press
Life review of elderly depression
Development and application of ATR-FTIR spectroscopy for mixture homogeneity in pharmaceutical application
The Increasing Damage in Tubular Cell of Infant Mice’s Kidneys from Carbofuran Exposure during its Mothers’ Lactation Period
Trend of transsexualism problem and its implications towards muslim community in Malaysia
Development and validation of RP-HPLC method for the estimation of pidotimod in tablet dosage form
Evaluation of neurotoxicity of the ethanolic bark extract of Holarrhena pubescens Wall. ex G.Don in mice
Design, synthesis and evaluation of 2-aminobenzimidazole derivatives: strong candidate for PPAR gamma agonists.
Prediction of Heart Disease Using Feature Selection and Random Forest Ensemble Method
Strategies for Antiviral Drugs from Plants by Targeting the Hemagglutinin, Neuraminidase and other receptors of Influenza A virus
The impact of human resource and quality management in health care: A Review
12345678910...
ADOBE READER

(Require Adobe Acrobat Reader to open, If you don't have Adobe Acrobat Reader)

Index Page 1
Click here to Download
IJPR 9[3] July - September 2017 Special Issue

July - September 9[3] 2017

Click to download
 

Article Detail

Label
Label
Removal of Pharmaceutical Amoxicillin drug by using (CNT) decorated Clay/ Fe2O3 Micro/Nanocomposite as effective adsorbent: Process optimization for ultrasound-assisted adsorption

Author: ASEEL ALJEBOREE, ABASS NOOR ALSHIRIFI, AYAD F. ALKAIM
Abstract: Synthesis of C decorates /Clay /Fe2O3 as a new Micro/Nanocomposite adsorbent for removal of pollutants (Amoxiciline AMX) from aqueous solutions. These Micro/Nanocomposites are synthesized by using the hydrothermal method, and loaded with type of carbon (CNT) on Clay surface. The physical characterizations of these prepared materials have been studied. The obtained powders are characterized by using different techniques EDX, XRF, and TEM. The optimum condition of the Effect of Sono/Adsorption parameters including (Effect of contact time, adsorbent dose, Initial drug concentration and pH) for drug (Amoxicillin AMX) by using ((CNT) decorated Clay/ Fe2O3 Micro/Nanocomposite)) surfaces as Adsorbents. The results of the adsorption study show that Percentage removal increases with the increase of the catalyst mass; and sonication adsorption time. The optimized value of agitation time is 60 minutes after which the adsorption becomes constant .
Keyword: Pharmaceuticals, Amoxicillin, CNT, Adsorption, Ultrasound, Clay.
DOI: https://doi.org/10.31838/ijpr/2019.11.04.012
Download: Request For Article
 












ONLINE SUBMISSION
USER LOGIN


Username
Password
Login | Register
News & Events
SCImago Journal & Country Rank

Terms and Conditions
Disclaimer
Refund Policy
Instrucations for Subscribers
Privacy Policy

Copyrights Form

0.12
2018CiteScore
 
8th percentile
Powered by  Scopus
Google Scholar

hit counters free