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1. Alkali Metals
C t t
Content
1.1 Occurrence
1.2 Properties
1.3 Synthesis
1.4 Technical Applications
1.5 Flame C
Colouration
1.6 Solubility of the Salts
1.7 Complexes with Crown Ethers
1 8 Compounds Formed with Oxygen
1.8
1.9 Salts of the Oxoacids
1.10 Biological Aspects
Group
I IA resp.
I,
3
Li
11
Na
19
K
37
Rb
55
Cs
87
Fr
„„Alkali metals“
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Slide 1
1.1 Occurrence
Abundance
Ab
d
Li: 2.0.10-3%, Na: 2.7%, K 2.4%, Rb: 9.0.10-3%, Cs: 3.10-4%
Lithium (lithos)
Greek: stone
LiAl[SiO3]2
LiAl[Si2O5]2
Spodumene: chain silicate
Petalite: phyllosilicate
Sodium
S
di
((neter))
Egypt.: soda
NaCl
N
Cl
NaNO3
Na2SO4
Na[AlSi3O8]
Rock
R
k salt
l
Chile saltpetre
Glauber’s salt
Albite
Potassium (potasse)
French: potash
KCl
KMgCl3.6H2O
Sylvite
Carnallite
Rubidium (rubidus)
G k ddeep red
Greek:
d
Accompanies the other alkali metals
Caesium (caesius)
G k sky
Greek:
k bl
blue
Accompanies the other alkali metals
C Al[SiO3]
CsAl[SiO
P ll
Pollux
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Slide 2
1.2 Properties
All Members
M b
off the
th Group
G
Are
A Highly
Hi hl Reactive
R ti Metals
M t l and
d Exhibit
E hibit
an Oxidation State of +I
Li
3
[He]
2s1
1.0
5.4
Na
N
11
[Ne]
3s1
1.0
5.1
K
19
[Ar]
4s1
0.9
4.3
Rb
37
[Kr]
5s1
0.9
4.2
Cs
C
55
[Xe]
6s1
0.9
3.9
Atomic number
Electronic
configuration
Electronegativity
Ionisation energy [eV]
Ionic radius Me+ for
CN 6 [pm]
90
116
152
166
181
Melting point Tm [°C]
181
98
63
39
28
Boilingg p
point Tb [[°C]]
1347
883
759
688
668
Density [g/cm3]
0.53
0.97
0.86
1.53
1.87
Flame colouring
crimson red yellow
pale violet red violet
blue violet
• Combustion of the metals leads to oxides, peroxides or superoxides, depending on the size
of the cation
• Lithium forms Li3N together with N2
• The alkaline character of the hydroxides increases with increasing atomic number
• All alkali
lk li metals
t l crystallise
t lli in
i a body-centred
b d
t d cubic
bi crystal
t l structure
t t
(CN 8)
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Slide 3
1.3 Synthesis
By Means off Fused-Salt
S Electrolysis
i or by C
Chemical
i Reduction
i via
i Extremely
Strong Reducing Agents
Lithium
Fused-salt electrolysis of LiCl/KCl (eutectic blend)
Li+ + e-  Li(l) (E0 = - 3.04 V Lithium possesses the most negative standard potential of all
elements)
Sodium
Fused-salt electrolysis of NaCl (Downs-cell) 
Cathode:
Na+(dissolved) + e-  Na(s)
Anode:
2 Cl-(dissolved)  Cl2(g) + 2 ePotassium
Reduction of molten KCl with Na
Rubidium, Caesium
By chemical reduction
Cs2Cr2O7(s) + Zr(s)  2 Cs(g) + 2 ZrO2(s) + Cr2O3(s)
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Slide 4
1.4 Application
Lithium
Lithi
•
•
•
•
Li-salts are important reagents in medicine
6Li2H and 6LiD serve as explosive core in fusion weapons
El
Element
t off alloys
ll
to
t harden
h d Pb,
Pb Al and
dM
Mg
Li-ion batteries
Sodium
•
•
•
•
Important reducing agent
Starting material for the synthesis of Na2O2, NaNH2, NaH, NaCN, Na/Pb…..
Coolingg agent
g
in fast breeder reactors
Low and high pressure Na discharge
lamps (589.0 + 589.6 nm)
P t i
Potassium
•
KCl, K2SO4 and KNO3 as fertilizer
Caesium
•
•
Photoelectric effect  photocell
137Cs (t
1/2 = 30 a) is a ß-radiator (512 keV)
 radiation source in medicine
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Slide 5
1.5 Flame Colouration
Thermall Excitation
Th
E it ti off Electrons
El t
Can
C L
Lead
d tto th
the E
Emission
i i off Visible
Vi ibl Light
Li ht and
d
Thus to a Coloured Flame
Colour of Flame
Crimson red
Yellow
Pale violet
Red violet
Blue violet
Brick red
Red
Pale green
Green
Pale blue
Pale blue
Pale blue
Red
G
Green
t blue
to
bl
Red
Inorganic Chemistry I
Prof. Dr. T. Jüstel
np
p1
Energy
Element
Li
Na
K
Rb
Cs
Ca
Sr
Ba
B
Pb
As
Sb
Cd
C
Cu
Y
T
-h
ns1
In case of alkali metals, the outer electron ns1 is
thermally excited. Upon relaxation to the ground
state a photon (h) is emitting which energy
corresponds to the difference between the first
excited and the ground state.
Slide 6
1.6 Solubility of the Salts
Th S
The
Solubility
l bilit off the
th Alkali
Alk li Metal
M t l Salts
S lt Is
I Dependent
D
d t on th
the R
Ratio
ti off r(K
(K+)/r(A
)/ (A-)
Equilibrium reaction:
LiI(s)
L tti enthalpy
Lattice
th l [kJ/mol]
[kJ/ l] -759
759
+
CsF(s) ⇌
-756
756
LiF(s) +
-1047
1047
CsI(s)
-608
608 H0 = -140
140 kJ/mol
kJ/ l
Solubility of alkali metal fluorides and iodides
(rokt.(F-) = 119 pm, rokt.(I-) = 206 pm)
KF
Solub
bility (mol/l) at 20°C
LiI
RbF
NaI
10
KI
CsF
RbI
CsI
1
NaF
Poorly soluble salts of the larger alkali
metals ((Me = K,, Rb,, Cs)) are those composed
p
of big anions:
Perchlorate
Tetraphenylborate
Hexanitrocobaltate
01
0.1
LiF
MeClO4
Me[B(C6H5)4]
Me3[Co(NO2)6]
0.01
80
100
120
140
160
180
r(cation)
( ti ) ((pm)) iin octahedral
t h d l coordination
di ti
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Slide 7
1.7 Complexes with Crown Ethers
The S
Th
Solubility
l bilit off Alkali
Alk li Metal
M t l Salts
S lt in
i Organic
O
i Solvents
S l
t Can
C Notably
N t bl Be
B Increased
I
d
Through the Addition of Complexing Agents  Crown Ethers
Complex of potassium ion
with 18-crown-6
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
12-crown-4
15-crown-5
18-crown-6
•
These cyclic polyethers form highly stable complexes with alkali metal cations
•
Alkali metal salts, such as KMnO4, dissolve in non-polar solvents, e.g. CHCl3
(trichloromethane), as soon as small amounts of crown ether are added.
•
Even elemental Na can be dissolved using 18-crown-6, whereby Na anions(!) are formed:
2 Na(s) + C20H36O6(l)  [Na(C20H36O6)]+Na-(s)
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Slide 8
1.8 Compounds Formed with Oxygen
The Weakly
Th
W kl Polarising
P l i i Alkali
Alk li Metal
M t l Cations
C ti
Are
A Able
Abl to
t Stabilise
St bili Even
E
Large
L
Anions, f.i. Oxygen. The Reaction Therewith Leads to the Formation of Peroxides
and Superoxides, with the Exception of Lithium
Metal
Li
Na
K, Rb, Cs
Product of reaction with O2
Li2O
Na2O2
KO2, RbO2, CsO2
Magnetism
diamagnetic
diamagnetic
paramagnetic
Colour
white
white
orange
p
react violently
y with H2O under formation of hydroxides:
y
All oxo compounds
Li2O(s) + H2O(l)  2 LiOH(s)
Na2O2(s) + 2 H2O(l)  2 NaOH(s) + H2O2(l)
2 KO2(s) + 2 H2O(l)  2 KOH(s) + H2O2(l) + O2(g)
Reaction with CO2 leads to carbonates:
Li2O(s) + CO2(g)  Li2CO3(s)
2 Na2O2(s) + 2 CO2(g)  2 Na2CO3(s) + O2(g)
4 KO2(s) + 2 CO2(g)  K2CO3(s) + 3 O2(g)
K2CO3(s) + H2O(l) + CO2(g)  2 KHCO3(s)
 KO
O2 is
i used as CO2 and H2O absorber in
i diving
i i gear
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Slide 9
1.8 Compounds Formed with Oxygen
O
Ozonides
id Are
A F
Formed
dU
Upon th
the R
Reaction
ti off S
Superoxides
id With O
Ozone O3
Synthesis: 2 MeO2 + O3  2 MeO3 + O2 (Me = K, Rb, Cs)
Decomposition: 2 MeO3  2 MeO2 + O2 (Me = K, Rb, Cs)
The O3- anion possesses 19 valence electrons an is thus paramagnetic!
.
O
O
-
.
O
O
O
O
The bond order of the O-O bond is 1.5
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Slide 10
1.9 Salts of the Oxoacids
S lt off Carbonic
Salts
C b i A
Acid
id (C
(Carbonates
b
t and
dH
Hydrogen
d
C
Carbonates)
b
t )
Me2CO3
MeHCO3
2 Li+(aq) + CO2(g) + H2O(l)  2 H+(aq) + Li2CO3(s) “insoluble”
“soda”
Na2CO3
K2CO3
“ t h”
“potash”
2 NaHCO3(s)  Na2CO3(s) + H2O(l) + CO2(g)
 sherbet powder and baking soda
Salts of Phosphoric Acid (Phosphates, Hydrogen Phosph. and Dihydrogen Phosph.)
Me3PO4
Me2HPO4
MeH2PO4
“alkaline salts”
“acidic salts”
Salts of Nitric Acid (Nitrates)
MeNO3
NaNO3
KNO3
“Chile saltpetre”
“saltpetre”
Salts of Sulphuric Acid (Sulphates and Hydrogen Sulphates)
Me2SO4
MeHSO4
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Na2SO4.10H2O
“acidic
acidic salts
salts”
“Glauber’s salt”  laxative
Slide 11
1.10 Biological Aspects
Lithium
i i
Treatment of mental illnesses (e.g. bipolar disorder)
 Li interferes with the metabolism in the human brain (hindrance of a enzymatic
2 ions play a major role)
conversion whereby Mg2+
 Diagonal relationship Li/Mg
Sodium/Potassium
•
•
Maintenance of membrane potentials (~ 60 mV) vie concentration gradients of Na+ and K+
across the cell membranes  signal line, renal function
Transport of ions takes place through ion channels
Red blood cells
Blood plasma
Na+ [[mmol/l]]
11
160
Rubidium, Caesium
K+ [[mmol/l]]
92
10
Na+
Na+
Na+
+
K
+
K
+
Na+
+
K K+K
+
K+ K
Na+
Na+
Are of no known biological importance
Inorganic Chemistry I
Prof. Dr. T. Jüstel
Slide 12
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