Synthetic polymers are quite resistant to environmental degradation process and are responsible for accumulation of polymer solid waste material. New biodegradable synthetic polymers have been designed and developed. These polymers contain similar functional groups as present in biopolymers.

e.g., aliphatic polyesters

Biopolymer, are polymers of amino acid or carbohydrates which are linked to each other by peptide or glycosidic linkages as shown below

Biopolymer can or can't be biodegradable.

e.g., protein, starch etc, are biodegradable but keratin are non-biodegradable. Biodegradable polymer are polymers which can be degradable always. e.g., DHBV nylon-2, Nylon-6

Rubber is a natural polymer which possess elastic properties. Natural polymer is a linear polymer of isoprene (2-methyl-1, 3-butadiene).

In natural rubber cis-polyisoprene molecules consists of various chains held together by weak van der Waals' interaction and has coiling structure. So, it can be stretched like a spring.

Plastics are generally polymer of ethene known as polythene. Polythene is thermoplastic polymer which may be linear (HDP) or branched (LDP) these type of polymers. Possesses intermediate intermolecular forces of attraction. It has linear, structure that can be moulded but can't be regained on its original shape after stretching.

Phenol and formaldehyde undergo condensation to give a polymer novolac $(A)$ which on heating with formaldehyde gives bakelite $(B)$ as a thermosetting polymer.

Sequence of the reaction can be written as

Structural difference in between these two is that novolac is a linear polymer while bakelite is a cross linked polymer.