"I just want to say one word to you -- just one word -- 'plastics.'"

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Presentation transcript:

"I just want to say one word to you -- just one word -- 'plastics.'" Advice to Dustin Hoffman's character in The Graduate

Polymers: Introduction Polymer: High molecular weight molecule made up of a small repeat unit (monomer). A-A-A-A-A-A-A-A-A-A-A-A-A-A-A-A-A-A-A-A-A-A-A-A Monomer: Low molecular weight compound that can be connected together to give a poymer Oligomer: Short polymer chain Copolymer: polymer made up of 2 or more monomers Random copolymer: A-B-B-A-A-B-A-B-A-B-B-B-A-A-B Alternating copolymer: A-B-A-B-A-B-A-B-A-B-A-B-A-B Block copolymer: A-A-A-A-A-A-A-A-B-B-B-B-B-B-B-B

Types of Polymers Polymer Classifications Polymer Families Thermoset: cross-linked polymer that cannot be melted (tires, rubber bands) Thermoplastic: Meltable plastic Elastomers: Polymers that stretch and then return to their original form: often thermoset polymers Thermoplastic elastomers: Elastic polymers that can be melted (soles of tennis shoes) Polymer Families Polyolefins: made from olefin (alkene) monomers Polyesters, Amides, Urethanes, etc.: monomers linked by ester, amide, urethane or other functional groups Natural Polymers: Polysaccharides, DNA, proteins

Common Polyolefins

Polyesters, Amides, and Urethanes

Natural Polymers

What Makes Polymers Unique? Really big molecules (macromolecules) like polymers have very different properties than small molecules Chain entanglement: Long polymer chains get entangled with each other. When the polymer is melted, the chains can flow past each other. Below the melting point, the chains can move, but only slowly. Thus the plastic is flexible, but cannot be easily stretched. Below the glass transition point, the chains become locked and the polymer is rigid

Physical Properties

Polymer Synthesis There are two major classes of polymer formation mechanisms Addition polymerization: The polymer grows by sequential addition of monomers to a reactive site Chain growth is linear Maximum molecular weight is obtained early in the reaction Step-Growth polymerization: Monomers react together to make small oligomers. Small oligomers make bigger ones, and big oligomers react to give polymers. Chain growth is exponential Maximum molecular weight is obtained late in the reaction

Addition Polymerization

Addition Polymerization Propagation A

Addition Polymerization Propagation A

Addition Polymerization

Types of Addition Polymerizations

Step-Growth Polymerization

Step-Growth Polymerization Because high polymer does not form until the end of the reaction, high molecular weight polymer is not obtained unless high conversion of monomer is achieved. Xn = Degree of polymerization p = mole fraction monomer conversion

Nylon-6,6

Nylon-6,6 Since the reactants are in different phases, they can only react at the phase boundary. Once a layer of polymer forms, no more reaction occurs. Removing the polymer allows more reaction to occur.

Molecular Weight of Polymers Unlike small molecules, polymers are typically a mixture of differently sized molecules. Only an average molecular weight can be defined. Measuring molecular weight Size exclusion chromatography Viscosity Measurements of average molecular weight (M.W.) Number average M.W. (Mn): Total weight of all chains divided by # of chains Weight average M.W. (Mw): Weighted average. Always larger than Mn Viscosity average M.W. (Mv): Average determined by viscosity measurements. Closer to Mw than Mn

What the Weights Mean Mn: This gives you the true average weight Let's say you had the following polymer sample: 2 chains: 1,000,000 Dalton 2,000,000 5 chains: 700,000 Dalton 3,500,000 10 chains: 400,000 Dalton 4,000,000 4 chains: 100,000 Dalton 400,000 2 chains: 50,000 Dalton 100,000 10,000,000 10,000,000/23 = 435,000 Dalton 1 Dalton = 1 g/mole

Weight Average Molecular Weight Mw: Since most of the polymer mass is in the heavier fractions, this gives the average molecular weight of the most abundant polymer fraction by mass.

Polymer Microstructure Polyolefins with side chains have stereocenters on every other carbon With so many stereocenters, the stereochemistry can be complex. There are three main stereochemical classifications for polymers.

How to Determine Microstructure? 13C NMR is a very powerful way to determine the microstructure of a polymer. 13C NMR spectrum of CH3 region of atactic polypropylene

Why is this important? Tacticity affects the physical properties Atactic polymers will generally be amorphous, soft, flexible materials Isotactic and syndiotactic polymers will be more crystalline, thus harder and less flexible Polypropylene (PP) is a good example Atactic PP is a low melting, gooey material Isoatactic PP is high melting (176º), crystalline, tough material that is industrially useful Syndiotactic PP has similar properties, but is very clear. It is harder to synthesize