introduction to polymers definition, classifications, chemical/physical properties, some structures,...
TRANSCRIPT
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Introduction to polymersDefinition, classifications, chemical/physical properties, some structures, applications
RheologyViscosity, newtonian and non-newtonian flow, rheograms, application in pharmaceutics
ColloidsLyophilic, lyophobic, association
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Introduction to polymersPoly = many, mer = unit, many units
Classification:
Homochain polymers
Heterchain polymers
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Polymerization
• Addition
• Condensation
Initiation: R-CO-O-O-CO-R 2 R-CO-O*
R-CO-O* + H2C=CH-C6H5 R-CO-O-CH2-C*H-C6H5
Propagation: Mn-CH2-CHR* + H2C=CHR Mn-CH2-CHR-CH2-CHR*
Termination: Mn-1-CH2-CHR* + Mm-1-CH2-CHR*
Mn-1-CH2-CHR-CHR-CH2-Mm-1
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Polymers
• Homopolymers (A-A-A-A-A-A)
• Copolymers -- Random copolymer A-A-B-A-B-B-B-A-A-B-A-B-
-- Alternating copolymer A-B-A-B-A-B-A-B
-- Block copolymer A-A-A-A-B-B-B-B-B-A-A-A
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Types of polymers
• Thermoplastics (material that is plastic or deformable, melts to a liquid when heated and freezes to a brittle, glassy state when cooled sufficiently), polystyrene, polyethylene
• Thermosets (cannot be melted and remolded)
phenolic resins, urea-formaldehyde resin
• Elastomers Rubbers
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Chemical, physical properties
• Molecular weight: Number average Mw = ∑ Xi Mwi
Weight average Mw = ∑ wi Mwi
• Conformation of polymers dissolved in solutions (molecular interactions)
-- Randomly coiled linear polymer -- Very dilute polymer solution -- Gel state of polymers (elastmers)
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Intramolecular interactions
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Diluted polymer solution and gel
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Polymer blend
Poly (Vinyl alcohol)-(vinyl pyrrolidone), PVA-PVP
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Sodium alginate
methylcellulose
Sodium carboxylmethycellulose
hydroxypropylmethylcellulose
Carbopol
Structures of selected polymers
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Pharmaceutical applications
• Pharmaceutical excipients
• Drug delivery (PLGA microparticles)
• Hydrogels
• Adhesive biomaterials
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Pharmaceutical excipients
• Coat tablets: Microcrystalline cellulose (MCC), sodium carboxylmethylcellulose (NaCMC), hydroxypropylmethycellulose (HPMC), hydroxyethylcellulose (HEC), Hydroxypropylcellulose (HPC), PEG, povidone
• Binder: acacia, gelatin, sodium alginate
• Disintegrants: Starch, carboxymethylstarch, povidone
• Plasticizer, PEG
• Thickening agents: xanthan gum (a natural gum polysaccharide used as a food additive and rheology modifier )
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PLGA microparticles
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Prolonged release
Leuprolide release from PLGA microparticles
Treat endometeriosis
Prostate cancerTreat growth deficiency
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Rheology
• Rheo = flow • Viscosity (poise) is an
expression of the resistance of a fluid to flow (1 p = 0.1 Pa.s)
• Fluidity () = 1/• Newton’s theory
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Newton’s theory• F’/A = d/dr; = F/G; G = d/dr = velocity gradient/rate of shear F = F’/A = shear stress
• Rate of shear is directly proportional to shearing stress.
• Kinematic viscosity = / ( is density)
• Effect if temperature on viscosity = A e EvRT (A is a constant, Ev is the
activation energy required to initiate flow between molecules
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Newtonian and non-newtonian systems
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Rheograms of different fluids
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Viscosity vs. Shear rate
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Non-newtonian systems1. Bingham plastic flow• does not begin to flow until a shear stress
corresponding to the yield value is exceeded.• Flocculated colloid particles
2. Pseudoplastic flow• Typically exhibited by polymers in solution (tragacanth, sodium
alginate, methylcellulose, NaCMC)• Viscosity decreases with the increase of shear rate/shear thinning• Caused by the re-alignment of polymer and/or the release of
solvents associated with the polymers.
3. Dilatant flow• Volume increases when sheared• Shear-thickening• Suspension containing a high concentration of small, deflocculated particles
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Thixothropy and anti-thixotropy
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• Procaine benzylpenicillin• Procaine benzylpenicillin, also known as procaine
penicillin, is a combination of benzylpenicillin with the local anaesthetic agent procaine. Following deep intramuscular injection, it is slowly absorbed into the circulation and hydrolysed to benzylpenicillin – thus it used used where prolonged low concentrations of benzylpenicillin are required.
• This combination is aimed at reducing the pain and discomfort associated with a large intramuscular injection of penicillin. It is widely used in veterinary settings.
Thixotropy in formulation
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Colloids
• a mixture in which one substance is divided into minute particles (called colloidal particles) and dispersed throughout a second substance.
• Size: 1 nm to 0.5 m
• Visible under electron microscope
• Not resolved by ordinary microscope
• Do not pass through semipermeable membrane
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Type of colloid systems1. Lyophilic colloids (solvent-loving)• Systems containing colloidal particles that interact to an appreciable
extend with the dispersion medium.
• Acacia in water or celluloid in amyl acetate lead o the formation of a sol.
• Solvation, hydration, hydrophilic sols (gelatin, acacia, insulin, albumin in water), lipophilic sols (rubber, polystyrene in non-aqueous solvents)
2. Lyophobic colloids (solvent-hating)• Colloids are composed of materials that have little attraction, if any, for
the dispersion medium.
• No solvent sheath around the particles
• Gold, silver, arsenous sulfide, silver oxide in water
3. Association colloids
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Classification of colloids