Now showing items 1-6 of 6
Studying the Effects of Varying pH and Temperature on the Smart Polymer mPEG-block-PDMAEMA
“Smart polymers” change their mechanical properties in response to changes in stimuli, such as pH, temperature, and polymer concentration. We chose to focus on the viscoelastic properties when determining the effects of ...
Tuning Smart Properties of mPEG-block-PDMAEMA Through Polymer Composition
The purpose of this study was to study smart polymers. “Smart” polymers respond to changes in their environment with a measureable change in property. Some smart polymers can change their solubility when the conditions ...
Synthesis of Smart Polymer PEG-PDMAEMA and Determination of Cloud Point
The purpose of this study was to exmaine the synthesis of smart polymers, including PEG-PDMAEMA as well as cloud point.
Synthesis and Characterization of a Reversible and Tunable Smart Polymer
Polymers are made of covalently bonded repeat units, called monomers, which make up long chains. The structure can be controlled to achieve a diblock copolymer with two different repeat units connected in blocks. “Smart” ...
Synthesis of Smart Polymer-Grafted Silica and Confocal Microscopy
The purpose of this study is to synthesize and characterize smart polymer-grafted colloidal silica particles in order to better understand and tune the smart characteristics and properties.
Synthesis, Characterization, and Testing of PEG-PDMAEMA Diblock Smart Polymers
In order to determine if PEG-PDMAEMA serves as both a polymer and a surfactant in EOR, testing of how viscosity and interfacial tension change of the aqueous PEG-PDMAEMA solution is needed. This can predict its ability ...