Renewable source-derived polymer oil macroinitiators and thermoplastic block copolymers derived therefrom

What is claimed is: 1. A method of making a thermoplastic polymer block suitable for polymerization with one or more other, different polymer blocks or suitable for use as a thermoplastic elastomer without combination with one or more other, different monomers or polymer blocks, comprising: providing a polymerization macroinitiator in the form of at least one halogenated polymer oil selected from the group consisting of: a halogenated heat-bodied, renewable source-derived oil; a halogenated blown, renewable source-derived oil; a halogenated, renewable source-derived copolymer oil; a halogenated hydrogenated heat-bodied, renewable source-derived oil; a halogenated hydrogenated blown, renewable source-derived oil; a halogenated hydrogenated renewable source-derived copolymer oil; and combinations of any thereof; combining the polymerization macroinitiator with a suitable atom transfer radical polymerization catalyst in the form of a transition metal halide and with a solvent for the polymerization macroinitiator, but in the absence of any atom transfer radical polymerization initiator other than a polymerization macroinitiator as described above; and in solution, causing an atom transfer radical polymerization of the polymerization macroinitiator with itself via one or more sites wherein a fatty acid double bond of the oil has been halogenated, a free hydroxyl group of the oil has been halogenated or an alpha carbon of a fatty acid moiety of the oil has been halogenated and via residual unsaturation in the polymerization macroinitiator. 2. A method of making a copolymer, comprising: combining: a) a polymerization macroinitiator in the form of at least one halogenated polymer oil selected from the group consisting of: a halogenated heat-bodied, renewable source-derived oil; a halogenated blown, renewable source-derived oil; a halogenated, renewable source-derived copolymer oil; a halogenated hydrogenated heat-bodied, renewable source-derived oil; a halogenated hydrogenated blown, renewable source-derived oil; a halogenated hydrogenated renewable source-derived copolymer oil; and combinations of any thereof and b) a radically polymerizable monomer with a suitable atom transfer radical polymerization catalyst in the form of a transition metal halide and with a solvent for a) and b) but in the absence of any other atom transfer radical polymerization initiator, to form a solution comprised of a) and b) with the atom transfer radical polymerization catalyst; and causing an atom transfer radical polymerization to take place in the solution. 3. A method of making a copolymer, comprising: combining: a) a polymerization macroinitiator in the form of at least one halogenated polymer oil selected from the group consisting of: a halogenated heat-bodied, renewable source-derived oil; a halogenated blown, renewable source-derived oil; a halogenated, renewable source-derived copolymer oil; a halogenated hydrogenated heat-bodied, renewable source-derived oil; a halogenated hydrogenated blown, renewable source-derived oil; a halogenated hydrogenated renewable source-derived copolymer oil; and combinations of any thereof and b) a polymerized linear-chain or branched-chain polymer block comprised of repeating units of a radically polymerizable monomer or of units of two or more radically polymerizable monomers with a suitable atom transfer radical polymerization catalyst in the form of a transition metal halide and with a solvent for a) and b), but in the absence of any other atom transfer radical polymerization initiator, to form a solution comprised of a) and b) with the atom transfer radical polymerization catalyst; and causing an atom transfer radical polymerization to take place in the solution. 4. A method of making a copolymer, comprising: making a thermoplastic polymer block according to the process of claim 1 ; then combining the thermoplastic polymer block with a radically polymerizable monomer and with a suitable atom transfer radical polymerization catalyst in the form of a transition metal halide and further with a solvent for both the thermoplastic polymer block and the radically polymerizable monomer, but in the absence of any other atom transfer radical polymerization initiator, to form a solution comprised of the thermoplastic polymer block and the radically polymerizable monomer with the atom transfer radical polymerization catalyst; and causing an atom transfer radical polymerization to take place in the solution. 5. A method of making a copolymer, comprising: making a thermoplastic polymer block according to the process of claim 1 ; then combining the thermoplastic polymer block with a polymerized linear-chain or branched-chain polymer block comprised of repeating units of a radically polymerizable monomer or of units of two or more radically polymerizable monomers, a suitable atom transfer radical polymerization catalyst in the form of a transition metal halide and with a solvent for the thermoplastic polymer block and the polymerized linear-chain or branched-chain polymer block, but in the absence of any other atom transfer radical polymerization initiator, to form a solution comprised of the thermoplastic polymer block and the polymerized linear-chain or branched-chain polymer block with the atom transfer radical polymerization catalyst; and causing an atom transfer radical polymerization to take place in the solution.