Blends of oligopeptide terminal polyisobutylene or polystyrene

The invention claimed is: 1. A polymer blend, comprising: a first oligopeptide-terminal polymer component selected from the group consisting of: a hydrophobic, flexible polymer having a glass transition temperature below 20° C. and only one monodisperse oligopeptide end group, the monodisperse oligopeptide end group having 1 to 5 amino acid repeating units; and a hydrophobic, flexible polymer having a glass transition temperature below 20° C. and two monodisperse oligopeptide end groups; and at least one additional polymer component which includes a hydrophobic, flexible polymer that has a glass transition temperature below 20° C. and is without an oligopeptide end group. 2. The polymer blend according to claim 1 , wherein at least one of said first oligopeptide-terminal polymer component and said at least one additional polymer component comprises repeating units selected from the group consisting of isobutylene, butadiene, siloxane, acrylate, and fluoropolymer units. 3. The polymer blend according to claim 1 , wherein at least one of said first oligopeptide-terminal polymer component and said at least one additional polymer component comprises one or more of isobutylene, isoprene or styrene units. 4. The polymer blend according to claim 1 , wherein said first oligopeptide-terminal polymer component and said at least one additional polymer component include a hydrophobic, flexible isobutylene polymer having a glass transition temperature below 20° C. and only one monodisperse oligopeptide end group, the monodisperse oligopeptide end group having 1 to 5 amino acid repeating units, blended with a hydrophobic, flexible styrene polymer having a glass transition temperature below 20° C. and only one monodisperse oligopeptide end group, the monodisperse oligopeptide end group having 1 to 5 amino acid repeating units. 5. The polymer blend according to claim 4 , wherein said at least one additional polymer component comprises a hydrophobic, flexible isobutylene polymer that has a glass transition temperature below 20° C. and is without an oligopeptide end group. 6. The polymer blend according to claim 1 , wherein said hydrophobic, flexible polymer that has a glass transition temperature below 20° C. and is without an oligopeptide end group has a number average molecular weight exceeding 10,000. 7. The polymer blend according to claim 1 , wherein an oligopeptide moiety of said first oligopeptide-terminal polymer component comprises L-alanine units. 8. The polymer blend according to claim 1 , wherein a polymer segment of at least one of said first oligopeptide-terminal polymer component and said at least one additional polymer component is selected from the group consisting of: polyisobutylene, poly(isobutylene-co-isoprene), polyisoprene, polybutadiene, polysiloxane, polyacrylate, poly(ethylene-co-butylene), hydrogenated poly(isoprene), hydrogenated poly(butadiene), and a fluoropolymer. 9. The polymer blend according to claim 1 , in the form of a shape-persistent thermoplastic elastomer. 10. The polymer blend according to claim 1 , comprising interpenetrating supramolecular polymer networks in which two or more specific supramolecular interactions result in the formation of two or more independent, interpenetrating supramolecular networks with different transition temperatures, that is, deaggregation temperatures. 11. The polymer blend according to claim 1 , wherein said hydrophobic, flexible polymer that is without an oligopeptide end group comprises the same type of polymer segment as said first oligopeptide-terminal polymer component. 12. A vibration damping material comprising the polymer blend according to claim 10 . 13. The vibration damping material according to claim 12 , wherein said first oligopeptide-terminal polymer component is a hydrophobic, flexible polyisobutylene polymer having only one monodisperse oligopeptide end group with 1 to 5 amino acid repeating units beyond its terminal amide group; wherein said at least one additional polymer component includes a hydrophobic, flexible polyisobutylene polymer having only one monodisperse oligopeptide end group with 1 to 5 amino acid repeating units beyond its terminal amide group; wherein said hydrophobic, flexible polymer that is without an oligopeptide end group is a hydrophobic, flexible polyisobutylene polymer; and wherein each of said hydrophobic, flexible polyisobutylene polymer having only one monodisperse oligopeptide end group has a different number of peptide units beyond its terminal amide group. 14. A vibration damping material comprising the polymer blend according to claim 1 , wherein said at least one polymer is a hydrophobic, flexible polyisobutylene polymer having only one monodisperse oligopeptide end group and from 2 to 5 peptide units beyond its terminal amide group; and wherein said hydrophobic, flexible polymer without an oligopeptide end group is a hydrophobic, flexible polyisobutylene polymer. 15. The vibration damping material according to claim 14 , wherein said hydrophobic, flexible polyisobutylene polymer having only one monodisperse oligopeptide end group has 2 peptide units beyond its terminal amide group. 16. A vibration damping material comprising the polymer blend according to claim 1 , wherein said at least one polymer comprises a hydrophobic, flexible polyisobutylene polymer having only one monodisperse oligopeptide end group and from 1 to 5 peptide units beyond its terminal amide group and a hydrophobic, flexible polyisobutylene polymer having two monodisperse oligopeptide end groups and from 1 to 5 peptide units beyond its terminal amide group; wherein the hydrophobic, flexible polymer being without an oligopeptide end group is a hydrophobic, flexible polyisobutylene polymer; and wherein the hydrophobic, flexible polyisobutylene polymers having only one monodisperse oligopeptide end group and two monodisperse oligopeptide end groups have the same number of peptide units beyond their terminal amide group. 17. The vibration damping material according to claim 16 , wherein each of the hydrophobic, flexible polyisobutylene polymers having only one monodisperse oligopeptide end group and two monodisperse oligopeptide end groups has 2 peptide units beyond its terminal amide group. 18. The vibration damping material according to claim 12 , being a composite material including one or more of the following: a plasticizer; and a reinforcing filler comprising carbon fibre, carbon black, or silica particles. 19. The vibration damping material according to claim 12 , in a form adapted to reduce vibration within a vehicle, the form being a pad or other layer which can be interposed between members of the vehicle subject to vibration. 20. A vehicle which includes the vibration damping material according to claim 12 . 21. The vehicle according to claim 20 , which is a motor vehicle or an aerospace vehicle. 22. A method of vibration damping which involves use of the polymer blend according to claim 1 upon or within a structure or a vehicle. 23. The polymer blend according to claim 1 , wherein an oligopeptide moiety of said first oligopeptide-terminal polymer component consists of L-alanine units. 24. The polymer blend according to claim 1 , wherein said first oligopeptide-terminal polymer component and said at least one additional polymer component include a hydrophobic, flexible polyisobutylene polymer having one or two monodisperse oligopeptide end groups blended with a hydroph