Synthesis of interpenetrating network hydrogel from poly(acrylic acid-co-hydroxyethyl methacrylate) and sodium alginate: Modeling and kinetics study for removal of synthetic dyes from water

被引：152

作者：

Mandal, Bidyadhar ^{[1
]}

Ray, Samit Kumar ^{[2
]}

机构：

[1] Bijoy Krishna Girls Coll, Dept Chem, Howrah, India

[2] Univ Calcutta, Dept Polymer Sci & Technol, Kolkata 700009, India

来源：

CARBOHYDRATE POLYMERS | 2013年 / 98卷 / 01期

关键词：

IPN; Sodium alginate; Swelling and network parameters; Dye adsorption; Thermodynamics; Regeneration; AQUEOUS-SOLUTIONS; SUPERABSORBENT HYDROGELS; SWELLING PROPERTIES; ADSORPTION; PARAMETERS; COPOLYMER;

D O I：

10.1016/j.carbpol.2013.05.093

中图分类号：

O69 [应用化学];

学科分类号：

081704 ;

摘要：

Several interpenetrating network (IPN) hydrogels were made by free radical in situ crosslink copolymerization of acrylic acid (AA) and hydroxy ethyl methacrylate in aqueous solution of sodium alginate.N,N' -methylenebisacrylamide (MBA) was used as comonomer crosslinker for making these crosslink hydrogels. All of these hydrogels were characterized by carboxylic content, FTIR, SEM, XRD, DTA-TGA and mechanical properties. Swelling, diffusion and network parameters of the hydrogels were studied. These hydrogels were used for adsorption of two important synthetic dyes, i.e. Congo red and methyl violet from water. Isotherms, kinetics and thermodynamics of dye adsorption by these hydrogels were also studied. (C) 2013 Elsevier Ltd. All rights reserved.

引用

页码：257 / 269

页数：13

共 50 条

[21] Poly (Acrylate -Acrylic acid-co-Maleic acid) hydrogel: A Cost Effective and Efficient Method for Removal of Metal Ions from Water
Souda, P.
Sreejith, Lisa
SEPARATION SCIENCE AND TECHNOLOGY, 2013, 48 (18) : 2795 - 2803
[22] MODELING DRUG RELEASE FROM DYNAMICALLY SWELLING POLY(HYDROXYETHYL METHACRYLATE-CO-METHACRYLIC ACID) HYDROGELS
KOU, JH
FLEISHER, D
AMIDON, GL
JOURNAL OF CONTROLLED RELEASE, 1990, 12 (03) : 241 - 250
[23] Novel hydrogel poly (GG-co-acrylic acid) for the sorptive removal of the color Rhodamine-B from contaminated water
Jabeen, Salma
Alam, Sultan
Shah, Luqman Ali
Zahoor, Muhammad
Umar, Muhammad Naveed
Ullah, Riaz
HELIYON, 2023, 9 (09)
[24] Sodium alginate/magnetic hydrogel microspheres from sugarcane bagasse for removal of sulfamethoxazole from sewage water: Batch and column modeling
Prasannamedha, G.
Kumar, P. Senthil
Shivaani, S.
Kokila, M.
ENVIRONMENTAL POLLUTION, 2022, 307
[25] A comparative kinetics study of isothermal drug release from poly(acrylic acid) and poly(acrylic-co-methacrylic acid) hydrogels
Adnadjevic, B.
Jovanovic, J.
COLLOIDS AND SURFACES B-BIOINTERFACES, 2009, 69 (01) : 31 - 42
[26] Poly(2-hydroxyethyl methacrylate) hydrogel: from a brittle material to a nanofilled semi-interpenetrating polymer network with potential application in wound dressings
Ruiz-Galindo, Oscar
Zizumbo-Lopez, Arturo
Licea-Claverie, Angel
Perez-Sicairos, Sergio
POLYMER INTERNATIONAL, 2019, 68 (06) : 1113 - 1122
[27] Microwave-assisted synthesis of gum gellan-cl-poly(acrylic-co- methacrylic acid) hydrogel for cationic dyes removal
Choudhary, Sonal
Sharma, Kashma
Kumar, Vijay
Bhatia, Jaspreet Kaur
Sharma, Shweta
Sharma, Vishal
POLYMER BULLETIN, 2020, 77 (09) : 4917 - 4935
[28] Microwave-assisted synthesis of gum gellan-cl-poly(acrylic-co- methacrylic acid) hydrogel for cationic dyes removal
Sonal Choudhary
Kashma Sharma
Vijay Kumar
Jaspreet Kaur Bhatia
Shweta Sharma
Vishal Sharma
Polymer Bulletin, 2020, 77 : 4917 - 4935
[29] Kinetic and Equilibrium Modeling for Adsorption of Textile Dyes in Aqueous Solutions by Carboxymethyl Cellulose/Poly(acrylamide-co-hydroxyethy methacrylate) Semi-interpenetrating Network Hydrogel
Bhattacharyya, Ruma
Ray, Samit Kumar
POLYMER ENGINEERING AND SCIENCE, 2013, 53 (11): : 2439 - 2453
[30] Removal of Water from Water-in-crude Oil Emulsions with Poly[(acrylic acid)-co-(sodium acrylate)] as Water-absorptive-polymers
Nakano, Chiyu
Takada, Yuta
Chida, Yutaro
Kato, Sumio
Ogasawara, Masataka
Ikeuchi, Takao
Shindo, Takayoshi
JOURNAL OF THE JAPAN PETROLEUM INSTITUTE, 2018, 61 (02) : 59 - 71

← 1 2 3 4 5 →