UGEB2380 The Chemistry of Life 2024-25 Lecture Notes PDF

Summary

These lecture notes cover various aspects of the Chemistry of Life, from cleaning agents to personal care products. Topics include surface tension, soap formation, and the effects of detergents. The notes are likely part of a 2024-2025 course.

Full Transcript

UGEB2380
The Chemistry of Life
Academic Year 2024-25

Dr. Sam CK HAU (Department of Chemistry)
Cleaning Agents,
Personal Care, and
Cosmetics
Industry of Cleaning
Soaps, Shampoos,
toothpastes, mouthwashes,
cosmetics, moisturisers, and
other skin and hair products,
laundry detergents,
household cleaners… …
Enormous market for
personal care and household
products - nearly 450 billion
US dollars annually and
growing

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 Surface Tension
A property of liquids that causes them to behave as if the surface is
covered by a thin membrane
The molecules that make up the liquids exert cohesive, attractive forces
between neighbouring molecules

At the water’s surface, nearby Water molecules exert large
water molecules are below and forces of attraction on
to the sides. This produces neighbouring molecules. Within
particularly strong attractions of the liquid, the total force of
the surface molecules attraction is dispersed in all
immediately below them, and direction
results in a cohesion of the
surface “surface tension”

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Soaps and Detergents
It is believed the Romans
discovering the soaps
Heating the goat fat with
extracts of wood ashes,
which contain strong bases,
produces soaps
Help clean oily and greasy
dirt from various substances,
including fabrics, dishes,
skin and hair

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How Soap is Made
From the hydrolysis of naturally occurring fats and oils in the presence
of a base, such as sodium hydroxide
The products are an alcohol, and the salt of the carboxylic acid,
“Saponification”
Sodium salts of fatty acid containing 10-18 carbons make the best
soaps

H O H O
CH3 +NaˉO C CH3
H C O C n H C OH n
O O
CH3 CH3
H C O C n + 3 NaOH H C OH + +NaˉO C n
O O
CH3 +NaˉO C CH3
H C O C n H C OH n
H H

A triglyceride A glycerol Soap Molecules
Sodium salts of Fatty acid

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Effect of Detergents
When detergents are added to water, they form a monolayer (a layer of
one molecule thick) at the surface

1. Detergent molecules 2. The nonpolar, 3. The polar, hydrophilic
disrupt the attractive hydrophobic tails of the heads of the detergent
forces among water detergent molecules molecules are attracted
molecules at the surface protrude out of the to water molecules and
and lower the surface water’s surface, remain embedded
tension disassociating among the water
themselves from the molecules at the surface
water molecules

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Surfactants and Micelles
Substances that accumulate
at the surfaces of water and
change their surface
properties sharply, especially
lowering the tension -
Surfactants (表⾯活性劑)
As detergents accumulate
within the body of water,
they coalesce into micelles -
microscopic spheres of one
substance distribute
throughout another, with
their hydrophobic tails
pointing the interior of the
micelles, and shielded from
contact with water
molecules

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How Detergent Clean
Water must be penetrate well in order to wash
A detergent lowers water’s surface tension, allowing water to carry the
detergent micelles to get into the fabric
When micelles reach the embedded dirt, they trap the oily dirt within
their hydrophobic interiors; then becomes dispersed or suspended in
the soapy water and be rinsed away with fresh water
Micelles are covered by carboxylate groups (–CO2ˉ; negatively charged)

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Types of Surfactants
All have a typical molecular
structure in common: a long O
hydrophobic chain - “Tail” S
O
and a hydrophilic group - O
O Na
“Head”
-ve charged hydrophilic head

If hydrophilic head is Cleaning natural fibers of cotton

negatively charged - anionic
surfactants N Cl

If hydrophilic head is
positively charged - cationic
surfactants
+ve charged hydrophilic head
If the molecule do not bear Effective germicides like mouthwashes

electrical charges - nonionic OH
surfactants O

Nonionic
Cleaning synthetic fabrics like polyester

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Cosmetic and Skin Care
Improve our appearance - to
look good and to smell nice,
especially by applying
chemicals to our bodies
Henna - a hair dye extracted
from henna plants of Africa,
India and the Middle East
Cosmetic derives from the
Greek word ‘kosmos’,
meaning order, adornment
and the universe
Anything intended to be
applied directly to the human
body for “cleansing,
beautifying, promoting
attractiveness, or
alternating the appearance”
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Cosmetic and Skin Care
Can be categorised into 4
main groups - hair-care
products; skin-care
products; hand, face, and
body soaps; and perfumes
and colognes
One-tenth of the retail cost
on the raw materials like
detergents, moisturisers,
fragrances, solvents … …
Other costs are packaging,
distribution, marketing, also
research and development
expenses

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Cosmetic and Skin Care
Among all, two classes of
chemicals, aside of water
and common solvents
Surfactants - critical
component of shampoos,
soaps, toothpastes, and
related products
Fragrances - contribute less
than 1% to the total weight
of all personal care
products, but make up
about 25% of the total cost
of all the raw materials, and
the most expensive one

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Skin Care
Skin
The largest body’s organ,
covering and containing the
body, protecting it from
damages
Regulating body temperature;
sensing stimuli provided by the
outer world; synthesising
compounds like vitamin D
Consists of two major layers -
dermis (underlying layer,
contains nerves, blood
vessels, sweat glands, hair
follicles) and epidermis
(consists of several tiers of
cells, a single sheet of cells
dividing continuously and
pushing upward)
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Skin Care
When the cells in epidermis
move toward the outside of
the skin, driving along by
new cells from beneath, they
lose their ability to divide and
die eventually
Those dead cells become
the lifeless, outermost layer
of the skin, called the
stratum corneum
The condition depends
mostly on its water content,
too much moisture nourishes
the growth of fungi and
microorganisms; too little
dries it out, producing flaking
and cracking

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Skin Lotions
Keep the skin soft and moist
Prepared by emulsions of
two or more liquids that are
insoluble in each other
If the first ingredient listed is
an oil, likely a water-in-oil
emulsion with oil content
>50%; if listed is water,
probably a oil-in-water
emulsion with water content
>50%
Most effective when applied
after a bath or shower, while
the skin is still damp

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Antiperspirants and Deodorants
The body control its temperature by perspiring or sweating, and the
evaporation of the water contained in perspiration can cool the body
The eccrine glands cover most of the skin, dense on the forehead, face,
palms; secrete a slightly acidic and very dilute solution of inorganic ions,
lactic acid, urea and glucose
The apocrine glands lie under the arm, in the groin; their odourless
secretions attract bacteria to accumulate and degrade to give an unpleasant-
smelling products

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Antiperspirants and Deodorants
Antiperspirants are ionic compounds containing aluminium cations (Al3+), like
[Al2nCl6-n·xH2O]m
Enter skin cells, water is drawn in and the cells swell, causing the ducts of the
eccrine glands to squeeze shut, preventing further release of sweat
These aluminium compounds reduce the odour associated with the apocrine
glands by killing the bacteria
Deodorants mask or eliminate odours with pleasant fragrances and with
antibacterial agents
Colouring Cosmetic
Colouring cosmetic - lipsticks, eye colouring, nail polish, and face
powder
Dyes and pigments in cosmetics can be classified as organic and
inorganic
Organic - highly conjugated (system of alternating single and double
bonds)
Inorganic - ions of transition metals (can absorb or scatter light and
produce colours)

O
Eye shadows use largely
O inorganic dyes including
ultramarine blue, containing
aluminium, oxygen, silicon,
HO O OH sodium and sulphur; iron oxides
of various shades of red, carbon
Br Br black and titanium oxide (TiO2)
Dibromofluorescein for white colour
(D&C Orange #5)
Fragrances
Perfume - Latin per (through)
and fumus (smoke)
Cologne is a much more dilute
and less expensive version of
a perfume
Modern perfumes - mixture of
various synthetic chemicals
and plant extracts, all
dissolved as 10~25%
solutions in alcohol
Volatile and evaporate readily,
mixing with the air and
allowing us to smell them
The rate of evaporation can be
variable, depending on their
structures but be increased by
body warmth
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Fragrances
The mixed fragrances are O
designed to reach the nose
in three notes H

Top Note - first impact, 2-phenylethanal
vaporise easily and move to OH
nose quickly
Heart Note - most noticeable
odour 2-phenylethanol

End or Base Note - a O
residual, longer-lasting scent Top Note
carried by earthy substances
and lingers
Heart Note

Base Note Civetone
Sunscreen
UV radiation from the sun,
called the UVA and UVB
regions
UVA (320-400 nm), less
energetic, not cause
sunburns
UVB (290-320 nm), cause
damage over a long term,
tissue destruction,
associated redness,
blistering and peeling
Our skin defence by
producing the dark pigment
melanin to screen out part of
the radiation and helps
minimise the damage

22
Sunscreens
Most are broad-spectrum
meaning that provide
protection against both UVA
and UVB radiation
UV absorbers - organic
compounds that absorb UV
radiation
Para-aminobenzoic acid
(PABA) but allergenic and O O
other risks
Avobenzone and O
Octocrylene, which often Avobenzone
(UVA)
containing benzene rings O
bonded to carbonyl groups N
C
O

Octocrylene
23 (UVB and short-wave UVA)
Sunscreens
Most are broad-spectrum
meaning that provide
protection against both UVA
and UVB radiation
Scattering agents -
inorganic oxides, such as
zinc oxide (ZnO) and
titanium oxide (TiO2)
Scatter or block all the
radiation, letting none
through to the skin by
nanotechnology
Usually applied to the nose
and the tops of the ears,
areas that receive the most
direct exposure

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Sun Protection Factor (SPF)
Serves as a measure of its ability to protect against UVB radiation
A product with an SPF of 30: it can reduce the amount of UVB radiation
reaching the skin by a factor of 30 (after 30 mins in the sun, you would
have received the same amount of UV radiation as someone who spent
only 1 min in the sun without sunscreen)

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Hair Care
Serves to help protect the skin and regulate body temperature
Lifeless structure composed of a protein called Keratin
In keratin, the sulphur-containing amino acid (cysteine) dominates the
polymer and accounts for about 15%
Along the polypeptide chain, the thiol groups (–SH) of cysteines readily
form disulphide links (–S–S–) with the neighbouring chains
The joined cystine groups give hair strength by connecting and keeping
the polypeptide chains aligned
Cysteine amino acid on Form links with each
neighboring strands of other which help produce
keratin structural rigidity

NH NH NH NH
H2 H2 H2 H2
HC C SH HS C CH HC C S S C CH

C C C C
O Cysteine Cysteine O O Cystine O

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Hair Structure
Each strand of hair grows from a living root embedded within follicles under
the skin
Consists of a central core (the cortex), over it is a thin, translucent, scaly
sheath (the cuticle)
Sebaceous glands lying in the skin near the follicle lubricate with an oily
sebum - gives the hair a gross and keeps the scales of cuticle lying flat to
prevent the strand from drying out

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Hair Structure
Too much sebum makes the hair feel greasy and dirty; too little sebum
makes the hair dry, dull and wild
Detergents of shampoo helps to remove the dirt from the hair and
scalp, also the accumulated sebum to keep the hair looking clean
Conditioners replace part of the lubricant that might be lost in the
washing

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Hair Treatment
Permanent wave hair treatment use a reducing agent to cleave the
disulphide links, allowing hair to be curled; once the orientation is
settled with an oxidising agent, which converts the cysteines back to
cystines
Hair relaxers use alkaline compounds like lithium hydroxide (LiOH) to
disrupt the disulphide links, allowing curly hair to straighten

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