Electric studies on polyvinyl alcohol with additions of magnesium sulfate

Mansour, Ahmed Bakry

doi:10.1002/app.13480

Cited by 7 publications

(3 citation statements)

References 9 publications

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“…Thus, we suggest that the activation energy of 0.32 eV is the intrinsic value of PVA and is related to the activation of electrons trapped within the density of states tail. However, neither our data nor the results of [1,2,23] agree with the value e E a ¼ 0.44e0.55 eV that was observed in paper [15].…”

Section: Activation Energy Of Conductivitycontrasting

confidence: 91%

Tunable electrophysical properties of composites nano-CdS/polyvinyl alcohol

Rudko

Kovalchuk

Бондаренко

et al. 2014

Materials Chemistry and Physics

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h i g h l i g h t s Electrical d.c. conductivity of nano-CdS/polyvinyl alcohol composites are studied. Temperature dependence of d.c. conductivity of composites are studied. Influence of nanoparticles concentrations on d.c. conductivity were investigated. Current-voltage characteristics interpreted in term of space-charges-limited currents. Tunability of the thermal sensitivity of CdS/polyvinyl alcohol composite is analyzed.

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Section: Activation Energy Of Conductivitycontrasting

confidence: 91%

Tunable electrophysical properties of composites nano-CdS/polyvinyl alcohol

Rudko

Kovalchuk

Бондаренко

et al. 2014

Materials Chemistry and Physics

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“…The graft copolymerization of varieties of monomers onto cellulose has been carried out by different techniques, such as irradiation with ultraviolet light, gamma rays, plasma ion beams, atom-transfer radical polymerization, 7 and by ceric(IV) ion initiation methods. 8 The ceric(IV) ion initiation offers great advantages of forming radicals at cellulose backbone through a singleelectron-transfer process 9 to promote grafting of monomer onto cellulose. However, the ceric(IV) ion-initiated grafting depends on pH of the medium and the type of acid used for graft copolymerization.…”

Section: Introductionmentioning

confidence: 99%

Temperature-Responsive Cellulose by Ceric(IV) Ion-Initiated Graft Copolymerization of N-Isopropylacrylamide

2003

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Temperature-responsive cellulose has been obtained by graft copolymerization of N-isopropylacrylamide (NIPAAm) monomer using ceric ammonium nitrate (CAN) as initiator at 25.0 +/- 0.1 degrees C in acidic medium. Kinetic and grafting parameters were evaluated at different concentrations of NIPAAm ranging from 1.25 x 10(-3) to 12.5 x 10(-3) mol dm(-3) and varying concentrations of CAN from 1.5 x 10(-3) to 9.0 x 10(-3) mol dm(-3) at constant concentration of nitric acid (2.5 x 10(-2) mol dm(-3)). The graft copolymerization of NIPAAm onto cellulose has shown a significant increasing trend below lower critical solution temperature (LCST) of poly(N-isopropylacrylamide) (PNIPAAm) and shown low energy of activation (18.0 kJ mol(-1)) for graft copolymerization within the temperature range of 10-35 degrees C as determined with Arrhenius plot. The PNIPAAm-grafted cellulose has shown improved thermal stability and shown temperature-dependent degree of swelling. Variation in degree of swelling of PNIPAAm-grafted cellulose as a function of temperature has been used to determine LCST of PNIPAAm-grafted cellulose. The contact angle (theta) has shown variation on increasing the graft yield and temperature. On the basis of experimental observations, the reaction steps for graft copolymerization have been proposed and a rate expression has been derived.

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“…Grafted cellulose derivatives have previously been constructed with vinylic monomers by using a Ce(IV)-based redox process for the polymerisation. 60 To prepare biodegradable cellulose materials, we decided not to build up the hydrophobic part of the core-shell structure with vinyl monomers but with a biodegradable PLLA unit which can be achieved by ROP of L-lactide. Polymerisation was thus initiated on the free OH groups of the polysaccharide, as previously described for the reaction of 3caprolactone.…”

Section: Synthesis Of Copolymersmentioning

confidence: 99%

Synthesis of hydroxypropyl cellulose derivatives modified with amphiphilic diblock copolymer side-chains for the slow release of volatile molecules

2011

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Hydroxypropyl cellulose (HPC) was used as carrier material to prepare comb-like grafted block copolymers having an amphiphilic core-shell structure. The hydroxyl groups of HPC were partially protected with trimethylsilyl groups and the free OH groups used to initiate the ring opening polymerisation (ROP) of L-lactide. The end-chain of the grafted hydrophobic poly(L-lactide) (PLLA) chain was then functionalised with 2-bromopropionyl bromide which was used to polymerise the tertbutyl acrylate ( t BA) monomer by atom transfer radical polymerisation (ATRP). The hydrophobic P t BA block was then hydrolysed to a hydrophilic poly(acrylic acid) (PAA) block. The resulting amphiphilic grafted copolymer HPC-g-(PLLA-b-PAA) was dissolved in an ethanol/water mixture (9 : 1), such as a typical Eau de Toilette (EdT) formulation. Atomic force microscopy (AFM) and size measurements confirmed the presence of core-shell structures in solution. A significant swelling of HPC-g-(PLLA-b-PAA) in the presence of a volatile bioactive molecule, methyl 2,2-dimethyl-6methylene-1-cyclohexanecarboxylate (RomasconeÒ), was observed by dynamic light scattering (DLS). Furthermore, the presence of HPC-g-(PLLA-b-PAA) significantly decreased the evaporation rate of RomasconeÒ, thus serving as an efficient fragrance delivery system in formulations with high ethanol content.

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Electric studies on polyvinyl alcohol with additions of magnesium sulfate

Cited by 7 publications

References 9 publications

Tunable electrophysical properties of composites nano-CdS/polyvinyl alcohol

Tunable electrophysical properties of composites nano-CdS/polyvinyl alcohol

Temperature-Responsive Cellulose by Ceric(IV) Ion-Initiated Graft Copolymerization of N-Isopropylacrylamide

Synthesis of hydroxypropyl cellulose derivatives modified with amphiphilic diblock copolymer side-chains for the slow release of volatile molecules

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