Experimental Characterization and Theoretical Calculations of Responsive Polymeric Systems

Experimental Characterization and Theoretical Calculations of Responsive Polymeric Systems

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Due to their controllable size, low cytotoxicity, and unique architecture, cyclodextrin based pseudopolyrotaxanes have been developed to encompass a broad range of diverse medical and chemical engineering applications. The study of complexation between α-cyclodextrin (alfa-CD) grafted PEG segments o...

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Main Author: Khouri, Salim
Language:en
Published: 2010
Subjects:
Responsive
Polymers
Chemical Engineering
Online Access:http://hdl.handle.net/10012/5486
id ndltd-LACETR-oai-collectionscanada.gc.ca-OWTU.10012-5486
record_format oai_dc
spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OWTU.10012-54862013-10-04T04:10:13ZKhouri, Salim2010-09-17T15:12:01Z2010-09-17T15:12:01Z2010-09-17T15:12:01Z2010-09-14http://hdl.handle.net/10012/5486Due to their controllable size, low cytotoxicity, and unique architecture, cyclodextrin based pseudopolyrotaxanes have been developed to encompass a broad range of diverse medical and chemical engineering applications. The study of complexation between α-cyclodextrin (alfa-CD) grafted PEG segments on the surface of PAMAM dendrimers was carried out to investigate the physical properties and driving force of this so called host guest interaction. At pH of 10, complexation between alfa-CD and PEGylated-PAMAM occurred once alfa-CD was titrated to the PAMAM solution. However, at pH of 2 no binding took place until a critical alfa-CD concentration (C*) of ~ 8.0 mM was exceeded. The size of the nanostructures increased with alfa-CD concentration ranging from 0.5 to 25 mM at pH value of 2. From zeta potential measurements it was found that the PEGylated-PAMAM possessed positive charges, attributed to the protonation of primary amine groups on PAMAM chains that impart electrostatic repulsive forces to the system. As observed from DLS and SLS study at increasing alfa-CD concentration and pH values, the morphology of the complex changed from a start shaped to a Gaussian like structure. The dynamics and dimensions (length, diameter, translation and diffusion coefficients) of rod-like cellulose micro crystallites (whisker) were also investigated using simulated parameter estimation technique. For rod with L/d ratio equal to 17 (ROD 17), experimental D and Θ values produced length and diameter values showing close resemblance to experimental results with a significant reduction in the percentage error approaching 0.22 and 0.27% after 1000 iterations, respectively. The proposed approach provides a suitable and simple method to determine the length and diameter of rod-like nanoparticles, such as nanocrystalline cellulose.enResponsivePolymersExperimental Characterization and Theoretical Calculations of Responsive Polymeric SystemsThesis or DissertationChemical EngineeringMaster of Applied ScienceChemical Engineering
collection NDLTD
language en
sources NDLTD
topic Responsive
Polymers
Chemical Engineering
spellingShingle Responsive
Polymers
Chemical Engineering
Khouri, Salim
Experimental Characterization and Theoretical Calculations of Responsive Polymeric Systems
description Due to their controllable size, low cytotoxicity, and unique architecture, cyclodextrin based pseudopolyrotaxanes have been developed to encompass a broad range of diverse medical and chemical engineering applications. The study of complexation between α-cyclodextrin (alfa-CD) grafted PEG segments on the surface of PAMAM dendrimers was carried out to investigate the physical properties and driving force of this so called host guest interaction. At pH of 10, complexation between alfa-CD and PEGylated-PAMAM occurred once alfa-CD was titrated to the PAMAM solution. However, at pH of 2 no binding took place until a critical alfa-CD concentration (C*) of ~ 8.0 mM was exceeded. The size of the nanostructures increased with alfa-CD concentration ranging from 0.5 to 25 mM at pH value of 2. From zeta potential measurements it was found that the PEGylated-PAMAM possessed positive charges, attributed to the protonation of primary amine groups on PAMAM chains that impart electrostatic repulsive forces to the system. As observed from DLS and SLS study at increasing alfa-CD concentration and pH values, the morphology of the complex changed from a start shaped to a Gaussian like structure. The dynamics and dimensions (length, diameter, translation and diffusion coefficients) of rod-like cellulose micro crystallites (whisker) were also investigated using simulated parameter estimation technique. For rod with L/d ratio equal to 17 (ROD 17), experimental D and Θ values produced length and diameter values showing close resemblance to experimental results with a significant reduction in the percentage error approaching 0.22 and 0.27% after 1000 iterations, respectively. The proposed approach provides a suitable and simple method to determine the length and diameter of rod-like nanoparticles, such as nanocrystalline cellulose.
author Khouri, Salim
author_facet Khouri, Salim
author_sort Khouri, Salim
title Experimental Characterization and Theoretical Calculations of Responsive Polymeric Systems
title_short Experimental Characterization and Theoretical Calculations of Responsive Polymeric Systems
title_full Experimental Characterization and Theoretical Calculations of Responsive Polymeric Systems
title_fullStr Experimental Characterization and Theoretical Calculations of Responsive Polymeric Systems
title_full_unstemmed Experimental Characterization and Theoretical Calculations of Responsive Polymeric Systems
title_sort experimental characterization and theoretical calculations of responsive polymeric systems
publishDate 2010
url http://hdl.handle.net/10012/5486
work_keys_str_mv AT khourisalim experimentalcharacterizationandtheoreticalcalculationsofresponsivepolymericsystems
_version_ 1716600500046004224

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