Application of nanoparticles in polymeric foams

Shen, Jiong,

January 2006

Thesis (Ph. D.)--Ohio State University, 2006. / Title from first page of PDF file. Includes bibliographical references (p. 243-263).

Characterization of surfactant dispersed single wall nanotube - polystyrene matrix nanocomposite

Ayewah, Daniel Osagie, Oyinkuro

15 May 2009

Carbon nanotubes (CNT) are a new form of carbon with exceptional electrical and mechanical properties. This makes them attractive as inclusions in nanocomposite materials with the potential to provide improvements in electrical and mechanical properties and allows for the creation of a new range of multifunctional materials. In this study single wall carbon nanotubes (SWCNT) were dispersed in polystyrene using a solution mixing method, with the aid of a surfactant. A good dispersion was achieved and the resulting nanocomposites were characterized for electrical conductivity and mechanical properties by 3 point flexural and fracture toughness tests. Results show a significant improvement in electrical properties with electrical percolation occurring between 0.1 and 0.2 wt%. A minor improvement was observed in the flexural modulus but the strength and fracture toughness values in the nanocomposites decreased relative to the neat material. Scanning electron microscopy (SEM) was performed to characterize the morphology and fracture surface of the specimens. The results of testing and microscopy show that the presence of the nanotubes has an adverse effect on the crazing mechanism in Polystyrene (PS) resulting in a deterioration of the mechanical properties that depend on this mechanism.

Polystyrene

Crazing

Mechanical Properties

Electrical Properties

Single Wall Carbon Nanotube

Synthesis of Arborescent Amphiphilic Copolymers

Alzahrany, Yahya

01 January 2013

Living anionic polymerization techniques were applied to the synthesis of arborescent (dendritic) well-defined graft polymers having core-shell morphologies, with a hydrophobic core and a hydrophilic shell. Cycles of polystyrene substrate acetylation and anionic grafting yielded successive generations of arborescent polystyrenes. The anionic polymerization of styrene with sec-butyllithium provided polystyryllithium serving as side chains. These were coupled with a linear acetylated polystyrene substrate to obtain a generation zero (G0) arborescent polymer. An analogous G0 hydroxyl-functionalized polystyrene substrate with hydroxyl end groups was also obtained by a variation of the same technique, using a bifunctional organolithium initiator containing a hydroxyl functionality protected by a silyl ether group to generate the polystyrene side chains. These were coupled with the linear acetylated polystyrene substrate and subjected to a deprotection reaction to give the G0 polymer functionalized with hydroxyl groups at the chain ends. A similar procedure was used to generate a hydroxyl-functionalized arborescent G1 polymer from the corresponding G0 acetylated polystyrene substrate. The growth of polyglycidol chain segments was attempted from the hydroxyl-functionalized cores, to form a hydrophilic shell around the hydrophobic cores, but led to extensive degradation. A click reaction was also developed to synthesize the amphiphilic copolymers and was much more successful. In this case alkyne-functionalized arborescent polystyrene substrates, obtained by a modification of the hydroxyl-functionalized arborescent polystyrenes, were coupled with azide-functionalized polyglycidol side chains.

arborescent amphiphilic

Chemistry

Lanthanide-encoded Poly(styrene-co-methacrylic Acid) Microspheres: Synthesis and Characterization

Liang, Yi

27 July 2012

Lanthanide-encoded polystyrene-co-methacrylic acid (P(S-MAA)) microspheres with narrow size distributions were synthesized by two-stage dispersion polymerization. I examined how the amounts of methacrylic acid (MAA) and lanthanide (Ln) salts affect the composition of the particles formed in the reaction. Also, I performed a systematic study of Ln ion release into different aqueous solutions. In normal buffers, these particles were stable against ion leakage, even upon prolonged storage and stirring. When strong chelating agent ethylenediaminetetraacetic acid (EDTA) and diethylenetriaminepentaacetic acid (DTPA) were present in buffer, the loss of Ln ions increased to 15 % after 8 weeks. A preliminary kinetic study of Ln ion incorporation was performed to help understand the particle formation mechanism.

polystyrene

dispersion polymerization

lanthanide

mass cytometry

microspheres

ion release

0495

Lanthanide-encoded Poly(styrene-co-methacrylic Acid) Microspheres: Synthesis and Characterization

Liang, Yi

27 July 2012

Lanthanide-encoded polystyrene-co-methacrylic acid (P(S-MAA)) microspheres with narrow size distributions were synthesized by two-stage dispersion polymerization. I examined how the amounts of methacrylic acid (MAA) and lanthanide (Ln) salts affect the composition of the particles formed in the reaction. Also, I performed a systematic study of Ln ion release into different aqueous solutions. In normal buffers, these particles were stable against ion leakage, even upon prolonged storage and stirring. When strong chelating agent ethylenediaminetetraacetic acid (EDTA) and diethylenetriaminepentaacetic acid (DTPA) were present in buffer, the loss of Ln ions increased to 15 % after 8 weeks. A preliminary kinetic study of Ln ion incorporation was performed to help understand the particle formation mechanism.

polystyrene

dispersion polymerization

lanthanide

mass cytometry

microspheres

ion release

0495

Synthesis and characterisation of polyelectrolytes based on polymers of diallyldimethyl ammonium chloride and poly(styrene-co-butadiene)

Svensson, David

January 2012

In printed electronics there are many polyelectrolytes to choose from. While polyelectrolytes such as polystyrene sulfonic acid can fulfill many ofthe desired functionalities of a semiconductor, there is a need for other polyelectrolytes with other functionalities, such as functionality at low airhumidity and better cross-linking possibilities, while still functioning as a good semiconductor.Within this thesis, there is a description of general polyelectrolytes, as well as various usages.The synthesis and characterization of new polyelectrolytes that have been developed, based upon diallyldimethyl ammonium chloride (DADMAC)and a derivative of polystyrene sulfonic acid (PSSH) is described.The study and experimental testing of the polymers as polyelectrolytes under different conditions is described.

Polyelectrolytes

diallyldimethyl ammonium chloride

polystyrene sulfonic acid

DADMAC

PSSH

Characterization of surfactant dispersed single wall nanotube - polystyrene matrix nanocomposite

Ayewah, Daniel Osagie, Oyinkuro

15 May 2009

Carbon nanotubes (CNT) are a new form of carbon with exceptional electrical and mechanical properties. This makes them attractive as inclusions in nanocomposite materials with the potential to provide improvements in electrical and mechanical properties and allows for the creation of a new range of multifunctional materials. In this study single wall carbon nanotubes (SWCNT) were dispersed in polystyrene using a solution mixing method, with the aid of a surfactant. A good dispersion was achieved and the resulting nanocomposites were characterized for electrical conductivity and mechanical properties by 3 point flexural and fracture toughness tests. Results show a significant improvement in electrical properties with electrical percolation occurring between 0.1 and 0.2 wt%. A minor improvement was observed in the flexural modulus but the strength and fracture toughness values in the nanocomposites decreased relative to the neat material. Scanning electron microscopy (SEM) was performed to characterize the morphology and fracture surface of the specimens. The results of testing and microscopy show that the presence of the nanotubes has an adverse effect on the crazing mechanism in Polystyrene (PS) resulting in a deterioration of the mechanical properties that depend on this mechanism.

Polystyrene

Crazing

Mechanical Properties

Electrical Properties

Single Wall Carbon Nanotube

Study of Lattice Pattern Formation of Polystyrene Thin Films

Liu, Hsuan-Chen

12 July 2004

The article reports the lattice pattern self-assemble formation of polystyrene thin films. According to a simple observing device which using dark-field microscope, we collect a series of dynamitic image that air bubbles form a two-dimensionally or three-dimensionally ordered array in polymer film with Marangoni convection effect. In order to explain the array formation, we also provide two new models to discuss the phenomenon about 2D & 3D structure in this paper.

order

thin films

Maragoni covection

optic crystal

self-assembly

polystyrene

Phase stability in bulk crystallized syndiotactic polystyrene

Su, Chiu-Hun

21 July 2007

Simultaneous differential scanning calorimetry (DSC), small-angle (SAXS) and wide-angle X-ray scattering (WAXS) measurements were adopted for more precise determination of the equilibrium melting temperatures (Tm*) of a and b phases in bulk-crystallized syndiotactic polystyrene. On the basis of Kratky-Porod approximation, a new method for determining crystalline lamellar thickness from SAXS profiles obtained at high temperatures where there are only limited number of discrete crystalline lamellae dispersed in the melt matrix was developed. This method is shown to be reliable as it gave comparable results obtained from the conventional 1D correlation function method for SAXS profiles obtained at lower temperatures where lamellae are closely stacked. Results of the subsequent Gibbs-Thomson analysis indicated that the trigonal a phase is the entropically favored high temperature phase with Tm* = 355 oC whereas the b phase is enthalpically favored at lower temperatures, with Tm* = 314 oC. Compared to previous held contention in the temperature-dependent phase stability of these two phases, the current phase stability assignment is more consistent with both the density and the symmetry of the corresponding crystal structures. It also explains various observations reported previously on the competition between the two polymorphs during crystallization and during melting.

Equilibrium melting temperature

Syndiotactic polystyrene

Crystallization

Phase stability

Polymorphism

Synthesis and Characterization of Block and Graft Syndiotactic Polystyrene Copolymer.

zhuo, yi-hong

10 July 2002

none

block

poly(4-methylstyrene)

graft

caprolactone

syndiotactic polystyrene