Industrial Inorganic Chemistry (CHEMY 348) 2022/2024 Chapter 3 Organosilicon Compounds PDF

Summary

These lecture notes from the University of Bahrain cover organosilicon compounds, including their structure, properties, and applications. The document details the key aspects of silicones and related topics, along with important figures and properties.

Full Transcript

Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

Industrial Inorganic
Chemistry (CHEMY 348)
2nd Semester 2022/2024
CHAPTER (3)
Organosilicon Compounds

Dr. Ahmed Abd El-Fattah
Department of Chemistry, College of Science,
University of Bahrain.

Silicones

Good Luck. Dr. Ahmed Abd El-Fattah 1
Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

What are Organosilicon compounds?

Organosilicon compounds are organometallic
compounds containing carbon-silicon bonds.

 Organosilicon chemistry is the corresponding science
of their preparation and properties. Most organosilicon
compounds are similar to the ordinary organic
compounds, being colourless, flammable, hydrophobic,
and stable to air.

Nomenclature

SILICON Si
O

SILICA O Si O
O
X

SILANES X Si X
X
X = halides ex. Cl
R

O Si O
SILOXANES R

R = alkyl or phenyl ex. CH3 ,C6H5

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Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

What are Silicones or polyorganosiloxane?
 Structure

n up to 14000

Silicones are synthetic inorganic polymers with a linear, repeating
silicon-oxygen (Si―O) polar backbone or chain and with organic
groups (R) attached to the silicon atoms by C-Si bonds.
The bond between silicon and oxygen molecule is very ionic in
nature.
Silicone polymers do not have carbon as part of the backbone
structure.

What are Silicones or polyorganosiloxane?
 Structure

n up to 14000

The Si-O bond energy is much larger than the C-C bond energy and
this enables the -Si-O-framework of the silicone to give the polymers
thermal stability.
Depending on the number of repeat units (n) in the polymer chain
and the degree of cross-linking, six classes of commercially
important products can be produced.

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Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

 Properties
 Silicones have unique properties amongst polymers because
of the simultaneous presence of organic groups attached to
a chain of inorganic atoms.
 They are used in many industries including those devoted to
electronics, paints, construction and food.

 They are stable at high temperatures and are resistant to
oxidation and weathering.
 They are surface active hydrophobic (water-repellence)
substances.
 They are flexible polymers
 They are adhesive, electrically non-conducting and exhibit
high gas and vapor permeability.
 Their physical properties also vary little with temperature.

Structure and Properties
 The most widely used silicones are those which have methyl groups
along the backbone.
 Properties such as solubility in organic solvents, water-repellence,
high thermal stability and flexibility can be altered by substituting
other organic groups for the methyl groups.
 They are also better lubricants and are superior solvents for organic
compounds.
 The structure of the repeating units of silicones can be represented
as:

Where R represents organic groups attached to
the silicone backbone, for example

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Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

Manufacture of Silicones
 Silicones are manufactured from pure silicon which has been
obtained by the reduction of silicon dioxide (SiO2,silica) in the
form of sand with carbon at high temperatures:

 The production of silicones from silicon takes place in three
stages:
a) synthesis of chlorosilanes
b) hydrolysis of chlorosilanes
c) condensation polymerization or Polycondensation

(a) Synthesis of chlorosilanes
 Silicon is first converted into chlorosilanes,
e.g. RSiCl3, R2SiCl2 and R3SiCl, where R is an organic group
 When chloromethane is passed through heated silicon at about 550 K under
slight pressure and in the presence of a copper catalyst (for example, brass
or copper(II) chloride) a volatile mixture of chlorosilanes distils over.
For example:

 The mixture of liquids produced contains these three compounds

Dimethyldichlorosilane

 Careful distillation of the liquid mixture of chlorosilanes produces pure
fractions of each chlorosilane. Dimethyldichlorosilane is the main product
(70-90%, the amount depending on the conditions used).

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Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

(b) Hydrolysis of chlorosilanes
A dichlorosilane is hydrolyzed to a molecule with two hydroxyl groups:

 The product is a disilanol (siloxane diol). The suffix -ol in a silanol is to
show that the molecule contains at least one hydroxyl group attached to a
silicon atom and the simplest example is dimethyldisilanol

 The hydroxyl groups of silanols react spontaneously to form linear
siloxane oligomers (short chain polymers):

Oligomers = short chains

 If R is a methyl group, the polymer is a short chain poly(dimethylsiloxane).
 Poly(dimethylsiloxanes) are produced with n = 20-50, which is not long
enough to produce useful silicones.
 These relatively short polymers are known as oligomers (n = 20-50).

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Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

Cyclization
 Reaction of siloxane oligomers with potassium hydroxide results in easy
to separate and easily purified octamethylcyclotetrasiloxane.
CH3
Si - O
CH3
n

n = 3 Trimer
n = 4 Tetramer
n = 5 Pentamer
n = 6 Hexamer

 The potassium hydroxide catalyzes the cyclization reaction of linear
siloxane oligomers.
 Octaimethylcyclotetrasiloxane is more volatile compared with linear
siloxane.

(c) Condensation polymerization or Polycondensation
 The linear siloxane diols (disilanol) oligomers condense rapidly in
the presence of an acid catalyst preferably phosphonitrile chlorides
(PNCI2) to form long chain polymers (silicones):

 The removal of the water liberated in the polycondensation process
is achieved by operating the process at high temperatures and
optionally under vacuum.
 Deactivation of the catalyst is carried out with ammonia or amines.

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Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

Uses of silicones
The chemical structure of the silicones allow them to be produced in a
variety of forms:

a) Silicone fluids
b) Silicone gels
c) Silicone resins
d) Silicone elastomers (rubbers)

Their physical form and uses depend not only on the structure of the
polymer, whether it is a short or long chain molecule, a three
dimensional network or as a crosslinked species similar to a silicate,
but also on the organic groups attached to the Si-O framework.

 Silicone Classifications by Physical Form

(1) Fluids (hydraulic, release agents, cosmetics, heat
transfer media, polishes, lubricants, damping, dry
cleaning)
(2) Gels or Gums (high temperature heat transfer fluids,
lubricants, greases, cosmetic and health care
additives)
(3) Resins (varnishes, protective coatings, release
coatings, molding compounds, electronic insulation)
(4) Elastomers (tubing and hoses, medical implants,
sealants, adhesives, surgical aids, electrical
insulation, fuel resistant rubber parts, rollers, etc)

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Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

(1) Silicone Fluids
are typically straight chains of poly(dimethylsiloxane), with the repeating
structure
The silicones with short chains are fluids which, compared to
hydrocarbons, have a more or less constant viscosity over a wide
temperature range (200 to 450 K). They also have very low vapour
pressures.
The low surface tension of silicone fluids gives them unique surface
properties. They are, for example, used as lubricants in polishes (a mixture
of wax and a silicone fluid dissolved in an organic solvent), in paints and
for water-proofing fabrics, paper and leather.
They also have anti-foaming properties and have been used, for example,
to suppress the foaming of detergents in sewage disposal plants and in
domestic washing powders.
This is because they have a very low surface tension and thus displace the
surfactant molecules on the surface and depressing the ability of the
surfactant to promote foam,.

(2) Silicone Gels or Gums

 They are based on poly(dimethylsiloxane) chains but with a few
cross-links between the chains, giving it a very open three-
dimensional network.
 Often the cross-linking is done after a silicone fluid, together with a
reactive group, is poured into a mold and then warmed or catalyzed
so that there is interaction to form cross-linking between the polymer
chains.
 This is a very effective technique for protecting sensitive electronic
equipment from damage from vibration and the polymer also acts as
an electrical insulator. Pads containing a silicone gel are also used as
shock absorbers in shoes, particularly in high-performance trainers
and running shoes

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Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

(3) Silicone Resins
 They have a three-dimensional structure with the atoms arranged
tetrahedrally about the silicon atoms. The resins are usually applied
as a solution in an organic solvent, and are used as an electrical
insulating varnish or for paints where water repellence is desired, for
example, to protect masonry. They are also used to give an 'anti-
stick' surface to materials coming into contact with 'sticky' materials
such as dough and other foodstuffs.
 Hydroxyl groups on the resin react with hydroxyl groups that are on
the surfaces of various inorganic surfaces such as silica and glass,
thus making the surface water-repellent.
 A large range of silanes, known as coupling agents, has been
developed to enable chemists to bond an inorganic substrate (such as
glass, minerals and metals) to organic materials (for example,
organic polymers such as the acrylics, polyamides, urethanes and
polyalkenes).

Vulcanization is a chemical process by which rubber molecules
are cross-linked with organic/inorganic substance (catalyst) or heat
and pressure.
The rubber which is cross linked chemically is known as
vulcanizate.

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Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

(4) Silicone elastomers (rubbers)
 They are made by introducing even more cross-linking into the linear
chain polymers.
 There are two main ways of doing this.
1. by adding a curing agent at Room Temperature–Vulcanizing (RTV),
either using an organo-tin compound or with a platinum catalyst.
2. by adding a peroxide as a catalyst at an elevated temperature to
produce what is termed as a High Temperature–Vulcanizing (HTV
Silicone Rubber.
 They are stable over a wide range of temperatures (200 to 450 K).
 They are elastic, and their structure is somewhat similar to natural
rubber and they behave as elastomers and the properties are
determined by the amount of cross linking and the length of the
chains. Hydroxyl groups on the resin react with hydroxyl groups that
are on the surfaces of various inorganic surfaces such as silica and
glass, thus making the surface water-repellent.

SILICONES APPLICATIONS
Dow Corning’s products and specialty materials are used by
customers in virtually every major industry.
 Aerospace  Medical Products
 Automotive  Paints & Coatings
 Chemicals/ Petrochemicals  Personal, Household & Automotive
 Construction Care
 Consumer Products  Pharmaceuticals
 Electrical/Electronics  Plastics
 Food Processing  Pressure-Sensitive Adhesives
 Industrial Maintenance Production  Textiles & Leather

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Industrial Inorganic Chemistry (CHEMY 348), Second 13 March 2024
Semester 2023/2024

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