Name: China Manufacturer High Quality Carbinol(Hydroxyl) Terminated Poly Dimethylsiloxanes CAS 68937-54-2
Brand: Wuhan Fortuna Chemical Co., Ltd.

In short, Carbinol (Hydroxyl) Terminated Poly Dimethylsiloxane is a specific type of silicone oil whose chains end with reactive alcohol (-OH) groups. The term "carbinol" is an older name for a simple alcohol (specifically methanol), but in polymer chemistry, it's used to denote a hydroxyl-functional group.

Think of it as a silicone polymer that is "sticky" at both ends, ready to react and connect to other molecules.

Detailed Breakdown

Let's break down the name to understand its structure and function:

Poly Dimethylsiloxane (PDMS): This is the most common type of silicone polymer. Its backbone is made of alternating silicon (Si) and oxygen (O) atoms—a -Si-O-Si-O- chain. Each silicon atom is also bonded to two methyl groups (-CH₃). This structure is responsible for the classic silicone properties: flexibility, low surface tension, high thermal stability, and water repellency.
Terminated: This means the functional groups are located at the ends of the polymer chains.
Hydroxyl / Carbinol: This specifies that the end groups are hydroxyl groups (-OH), just like in alcohols. A "carbinol" group historically refers to a -CH₂OH group, but in this context, it's used interchangeably with "hydroxyl-terminated."

Key Properties

Reactive End Groups: The hydroxyl (-OH) ends are the most important feature. They can react with other functional groups (like alkoxy groups, silanes, or isocyanates) to form longer chains or cross-linked networks. This is the basis for their use as prepolymers or reactive intermediates.
Silicone Properties: It retains all the beneficial properties of PDMS, including:

Excellent lubricity and low surface tension.
High thermal and oxidative stability.
Water repellency.
Chemical inertness.
Good dielectric properties.

Variable Chain Length: The material is available in various viscosities, which correspond to different molecular weights (chain lengths). A shorter chain (lower viscosity) means more reactive ends per unit weight.

Why is the Termination so Important?

The end group of a silicone polymer drastically changes its behavior:

Trimethyl-terminated (e.g., Dimethicone): The ends are blocked with inert -Si(CH₃)₃ groups. This is a non-reactive silicone oil used in cosmetics, lubricants, and release agents. It's a finished product.
Hydroxyl-terminated: The reactive -OH ends mean this is not a finished product. It's a building block designed to be chemically incorporated into something else.

Primary Applications

Due to its reactive ends, hydroxyl-terminated PDMS is rarely used alone. Its main function is to act as a modifier or precursor in synthesis.

Silicone Synthesis (Chain Extension & Cross-linking):

It is the fundamental starting material for producing many other silicones.
When mixed with cross-linkers (e.g., tetraethyl orthosilicate), it can form a silicone elastomer (rubber) through a condensation cure reaction. This is common in Room Temperature Vulcanizing (RTV) silicones.

Modifying Organic Polymers (Creating Hybrids):

This is a major application. The OH groups can be used to graft silicone chains onto organic polymer backbones (like polyethers, polyesters, or polyurethanes).
Example: Silicone Polyether Copolymers: By reacting hydroxyl-terminated PDMS with a polyether, you create a powerful surfactant used in polyurethane foam production (to control bubble size and stability) and in high-performance coatings and adhesives.

Coupling Agent / Surface Modifier:

It can be used to treat inorganic surfaces (like glass, minerals, or metals). The silanol end can condense with hydroxyl groups on the surface, creating a permanent, hydrophobic silicone coating that improves lubricity, release, and compatibility.

Block Copolymer Synthesis:

Advanced material science uses it to create precise block copolymers, where a "block" of silicone is attached to a "block" of another polymer (e.g., polystyrene). This combines the properties of both materials into one.

Summary

Feature	Description
What it is	A reactive silicone polymer with alcohol (-OH) groups at both ends of its chain.
Key Property	The reactive hydroxyl termini allow it to act as a building block for creating larger molecules or networks.
Common Uses	1. Precursor for making silicone rubbers (RTV). 2. Modifier for creating silicone-organic copolymers (e.g., for polyurethane foam surfactants). 3. Coupling agent for surface treatment.
Contrast with	Trimethyl-terminated PDMS (Dimethicone), which is non-reactive and used as a finished lubricant or additive.

In essence, Carbinol/Hydroxyl Terminated PDMS is the key reactive intermediate that enables the vast and diverse world of silicone chemistry, connecting simple silicone chains to form complex materials and hybrid compounds.