Synthesis, characterization, and swelling kinetics of pH‐responsive and temperature‐responsive carboxymethyl chitosan/polyacrylamide hydrogels

Wei, Qing; Luo, Yan‐Ling; Feng, Feng; Zhang, Yuqi; Ma, Rujiang

doi:10.1002/app.38788

Cited by 37 publications

(19 citation statements)

References 48 publications

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“…Once created, hydrogels were cut into little slices and immersed in a shaker bath with distilled water for 12 h with the aim of removing physisorbed species, replacing deionized water every 5 h. Afterwards, hydrogels were dried in an oven at 40 °C until they reached constant weight …”

Section: Methodsmentioning

confidence: 99%

Electro‐Fenton decolourization of dyes in batch mode by the use of catalytic activity of iron loaded hydrogels

Bocos

Pazos

2014

J of Chemical Tech & Biotech

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BACKGROUND: Electro-Fenton technology has demonstrated great potential for the degradation of recalcitrant organic contaminants in polluted wastewaters. In this technology, the decomposition of hydrogen peroxide is catalysed by the presence of iron, and powerful oxidants, hydroxyl radicals, are generated. However, there is concern over the reduction of iron released in the treated effluent. Therefore, retention of catalyst is required, and advances in electro-Fenton heterogeneous catalysis are necessary. In this study, the use of polyacrylamide hydrogel was evaluated as a support for the iron, and the performance of the catalyst (Fe-PH) developed was assayed in the electro-Fenton degradation of two dyes, Reactive Black 5 and Blue Sella Solid. RESULTS: First, the synthesis of Fe-PH catalyst was studied. The results showed that the loaded hydrogel with a mixture of Fe(II) and Fe(III) in 1:2 molar ratio reached the highest decolourization efficiency. The performance of the optimized Fe-PH catalyst was evaluated in the decolourization of the selected dyes. These studies demonstrated the satisfactory performance of electro-Fenton using Fe-PH catalyst as well as its reusability. CONCLUSION: In summary, the Fe-PH catalyst developed gives the promise of wastewater treatment by means of an electro-Fenton process.

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Section: Methodsmentioning

confidence: 99%

Electro‐Fenton decolourization of dyes in batch mode by the use of catalytic activity of iron loaded hydrogels

Bocos

Pazos

2014

J of Chemical Tech & Biotech

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“…Thermoresponsive polymers are a class of polymers which undergo a solution phase transition on temperature variations . They have been extensively studied for their potential applications as biomedical materials, including thermoresponsive nanoparticles and hydrogels, and also in enhanced oil recovery . Most known examples of thermoresponsive polymers with solution phase transition temperatures (i.e., cloud point temperatures) are poly( N ‐isopropylacrylamide) (PNIPAM), poly( N , N ‐diethylacrylamide), polyethers and poly(2‐oxazoline)s .…”

Section: Introductionmentioning

confidence: 99%

Thermoresponsive poly(γ‐propyl‐l‐glutamate)‐graft‐(oligo ethylene glycol)s: Synthesis, characterization, and properties

Deng

Yuan

et al. 2014

J of Applied Polymer Sci

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A series of thermoresponsive poly(γ‐propyl‐L‐glutamate)‐graft‐(oligo ethylene glycol)s (PPLG‐g‐OEGs) with different main‐chain and side‐chain lengths have been synthesized via copper‐mediated alkyne‐azide 1,3‐dipolar cycloaddition between poly(γ‐azidopropyl‐L‐glutamate)s (PAPLG) and propargyl terminated oligo ethylene glycols (Pr‐OEGs). Fourier transform infrared spectrometer analysis revealed that PAPLG10 adopted 39.4% β‐sheet, 47.4% α‐helix, and 13.2% random coil while PAPLG with longer main‐chain length (DP = 37 and 88) and PPLG‐g‐OEGs adopted exclusive α‐helix in the solid state. Circular dichroism analysis revealed that PPLG‐g‐OEGs adopted α‐helical conformations with helicities in the range of 50∼100%. The thermoresponsive behaviors of PPLG‐g‐OEGs in water have been studied by dynamic light scattering. The polymer concentration, main‐/side‐chain length, and helicity collectively affected their cloud point temperatures. © 2014 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2014, 131, 41022.

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“…The swelling rate can be controlled by hydrophilicity and crosslink density of polymer [4][5][6]. The water storage capacity of hydrogels can be as much as 1000 times of the dry weight, and their high swelling capacity and biocompatibility widely promote their usage in pharmacy as drug delivery systems [7], biomedical area as antibacterial materials [8], industry as adsorbents, catalysts, sensors and separation systems [9,10], agriculture as fertilizer delivery systems [11].…”

Section: Introductionmentioning

confidence: 99%

Synthesis and characterization of acrylamide-based copolymeric hydrogel–silver composites: Antimicrobial activities and inhibition kinetics against E. coli

Boztepe

Tosun

Koc

et al. 2017

International Journal of Polymeric Materials and Polymeric Biom

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A series of acrylamide (AAm) based hydrogels containing acrylic acid (AAc), 2-acrylamido-2-methyl-1-propanesulfonic acid (AMPS) and vinyl imidazole (VI) comonomers were prepared by free radical polymerization. Silver nanoparticles were loaded to hydrogels systems via in situ reduction of silver nitrate in the presence of sodium borohydride as a reducing agent. The synthesized hydrogels and their composites were characterized using FT-IR, SEM, EDX and EDX-Mapping. The antimicrobial activity of hydrogel-silver composite was determined by using well agar and broth dilution tests. In the first stage, four different hydrogel-silver composites were evaluated against six different microorganisms using the well agar technique. The most effective hydrogel-silver composite among all tested was poly (AAm-co-VI-co-AMPS)-Ag, while the most sensitive and resistant microorganisms among all tested were S. cerevisiae and S. aureus respectively. Poly (AAm-co-VI-co-AMPS)-Ag composite was used in modeling the inhibition kinetic of E.coli. The present study displays that hydrogel-silver composite has considerable antimicrobial activity, which deserves further investigation for use in clinic application and industrial processing.2 Graphical Abstract KEYWORDS: Acrylamide based hydrogels, hydrogel-silver composites, antimicrobial activity, inhibition kinetic.

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Synthesis, characterization, and swelling kinetics of pH‐responsive and temperature‐responsive carboxymethyl chitosan/polyacrylamide hydrogels

Cited by 37 publications

References 48 publications

Electro‐Fenton decolourization of dyes in batch mode by the use of catalytic activity of iron loaded hydrogels

Electro‐Fenton decolourization of dyes in batch mode by the use of catalytic activity of iron loaded hydrogels

Thermoresponsive poly(γ‐propyl‐l‐glutamate)‐graft‐(oligo ethylene glycol)s: Synthesis, characterization, and properties

Synthesis and characterization of acrylamide-based copolymeric hydrogel–silver composites: Antimicrobial activities and inhibition kinetics against E. coli

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