polymerization reaction

Synthetic polymerization reactions may be carried out with or without a catalyst.

In addition to combustion, many polymerization reactions involve free radicals.

This has been seen to be due to the interaction of the radical centre with the catalyst during these polymerization reactions.

To reduce the molecular weight, hydrogen is added to the polymerization reaction:

Ruthenocene has been investigated as a photoinitiator for polymerization reactions.

They catalyze many polymerization reactions, but are also useful stoichiometrically.

However, they should not be confused with free radical "initiators" used to promote other polymerization reactions.

This leads to many chemically reactive species, which then lead to a plasma polymerization reaction.

Polymerization reactions lead to larger-molecular-weight compounds that contribute to the dark-brown color.

Chemically, the polymerization reaction can be seen as a condensation reaction.

The net polymerization reaction can be represented as:

In some cases, polysulfide polymers can be formed by ring-opening polymerization reactions.

That is, polymerization reactions are occurring all throughout the solution, with each reaction having an equal chance of occurring.

It has no active site or "free end", so it cannot undergo the same polymerization reaction that makes polypropylene.

One of the disadvantages of controlled radical polymerization reactions is that they tend to become rather slow.

Many Polymerization reactions are derived from organic reactions.

The tanks are heated to 30-40 C to facilitate the polymerization reaction and to promote branch formation in the polymer.

They form transition metal complexes that are highly active catalysts in some olefin polymerization reactions.

An initiator package begins the polymerization reaction of the resins when external energy (light/heat, etc.) is applied.

Polymerization reactions under miniemulsion conditions.

Heat facilitates a polymerization reaction that crosslinks rubber monomers to create long elastic molecules.

The bonding procedure is based on polymerization reaction of organic molecules to form long polymer chains during annealing.

In industry, photoinitiators are primarily used to promote polymerization reactions, notably in the production of polyethylene plastic.

Dissociation plays an important role in triggering chain reactions, such as hydrogen-oxygen or polymerization reactions.

The general polymerization reaction: