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The chemistry of Nitrogen

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Chapter 16 Phosphorus pentoxide (P4O10) It is used as one of the most effective drying agents. Reacts with water to form phosphoric acid Phosphoric acid: PCl3 or P4O6 ... – PowerPoint PPT presentation

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Title: The chemistry of Nitrogen


1
The chemistry of Nitrogen
  • Chapter 16

2
Nitrogen
  • Nitrogen can complete its valence valence shell
    by
  • 1.) Electron gain N3- ion
  • This is found in saltlike nitrides.
  • 2.) formation of electron pair bonds
  • A) single bonds NH3
  • B) multiple bonds NN -NN-, or NO2
  • 3.) formation of electron pair bonds with
    electron gain, NH2- or NH2-
  • 4.) Formation of electron pair bonds with
    electron loss (substituted ammonium ions)

3
Nitrogen
  • Three-Covalent Nitrogen
  • NR3 molecules are sp3 hybridised, the lone pair
    occupies the fourth position.
  • 1.) all NR3 compounds behave as Lewis bases, give
    donor-acceptor complexes with lewis-acids, act as
    ligands towards transition metal ions
    Co(NH3)63
  • 2.) Pyramidal molecules (NRRR) should be
    chiral. Optical isomers can not be isolated,
    because N oscillates through the plane of the
    R-groups. The energy barrier is only 24kJ/mol.
    (Inversion)

4
Inversion of Nitrogen
5
Nitrogen
  • 3.) in few cases 3-covalent nitrogen is planar
  • N-N single bond energy
  • The difference between C and N in bonding
    energies is attributable to the effects of
    repsulsion between nonbonding lone pairs.
    Nitrogen has little tendency to catenation.

6
Multiple bonds
  • Nitrogens propensity to form pp- pp multiple
    bonds is a feature that distinguishes it from
    phosphorus and the other GroupVB elements.
  • N2 has a high bond strength and a short
    internuclear distance (1.094Å). P forms infinite
    layer structures with only single bonds or P4
    molecules.
  • The oxo anions NO2- and NO3- , multiple bonds may
    be formulated in either resonance or MO terms.

7
Nitrogen
  • Nitrogen occurs as dinitrogen. N2 (bp 77.3 K).
  • 78 of the atmosphere is N2
  • N14/N15 has a ratio of 272.
  • N15 compounds are used in tracer studies.
  • The NN triple bond is responsible for the inert
    behaviour of N2.
  • N2 is prepared by liquefaction and fractionation
    of air.

8
Nitrogen
  • N2 only reacts with Li to give Li3N.
  • With certain transition metal complexes oand with
    nitrogen fixing bacteria.
  • Typical reactions of N2 at elevated temperatures

9
Nitrides
  • Nitrides of eletropositives metals have
    structures with discrete nitrogen atoms and can
    be regarded as ionic (Ca2)3(N3-)2
  • The Nitrides hydrolyse to ammonia and metal
    hydroxides.
  • Preparation
  • Direct interaction
  • Loss of ammonia from amides on heating

10
Nitrides
  • Transition metal nitrides are often
    nonstoichiometric and have nitrogen atoms in the
    interstices of close-packed arrays of metal
    atoms.
  • They are like the carbides or borides hard,
    chemically inert, high melting and electrically
    conducting.
  • Numerous covalent nitrides (BN,S4N4,P3N5)
  • These nitrides have very differing properties,
    depending on the element.

11
Nitrogen Hydrides
  • Ammonia is formed by the action of a base on an
    ammonium salt
  • Industrially Ammonia is made by the haber-Bosch
    process at 400-500 deg C and 100-1000atm.

12
Nitrogen hydrides
  • Ammonia is a colorless gas.
  • In liquid form it has a high heat of evaporation
    .
  • Liuid ammonia resembles water in its physical
    behaviour. It forms strong nydrogen bonds.
  • Its dielectric constant is around 22 at -34degC.
  • Liquid ammonia has lower reactivity towards
    electropositive metals and dissolves many of
    them.
  • AgI is insoluble in water but soluble in ammonia.
  • Ammonia burns in air

13
Nitrogen hydrides
  • At 750-900 deg C in the presence of a catalyst
    (platinum, platinum-rhodium)
  • NO reacts on with O2 to form the mixed oxides
    which can be absorbed in water to form nitric
    acid.

14
Nitrogen hydrides
  • The sequence in industrial utilisation of
    atmospheric nitrogen is
  • Ammonia is extremely soluble in water.

15
Ammonium salts
  • Ammonium salts
  • Crystalline salts of ammonium are mostly water
    soluble.
  • Ammonium salts generally resemble those of
    potassium and rubidium in solubility and
    structure. The three ions have comparable radii.

16
Thermal decomposition of ammonium salts
17
Hydrazine
  • Hydrazine can be described as a reaction of
    ammonia with one ammonia as the substituent.
  • 2 series of hydrazinium salts can be obtained
  • N2H5 are stable in water
  • N2H6 2 are hydrolysed in water.

18
Hydrazine
  • Anhydrous hydrazine is a fuming colorless liquid.
    It is considerable stable and burns in air
  • Aqueous hydrazine is a powerful reducing agent in
    basic solution.
  • Hydrazine is synthesized by the inateraction of
    aqueous ammonia with sodium hypochlorite

19
Hydrazine
  • But there is a competing reaction when hydrazine
    first is formed
  • To prevent this reaction one needs to add
    gelatine. It complexes Cu2 ions better than
    EDTA.

20
Hydroxylamine
  • Hydroxylamine is a weaker base than NH3
  • It is prepared by reduction of nitrates or
    nitrites either electrolytically or with SO2
    under controlled conditions.
  • Hydroxylamine is a white unstable solid.
  • It is used as a reducing agent.

21
Azides
  • Heavy metal azides are explosive and lead or
    mercury azides have been used in detonation caps.
  • The pure acid is a dangerously explosive liquid.
  • It can act as a ligand in metal complexes, it is
    linear molecule.

22
Nitrogen oxides
  • Dinitrogen monoxide
  • It has a linear structure is realtively
    unreactive , is inert towards
  • Halogens,
  • Alkali metals
  • Ozone at RT.
  • It is used as an anaesthetic.

23
Nitrogen oxides
  • Nitrogen monoxide

24
Nitrogen oxides
  • Dinitrogen trioxide
  • The anhydride of nitrous acid

25
Summary of reactions
26
Summary of reactions
27
Summary of reactions
28
Phosphorous, Arsen, Anitmony, Bismuth
  • Phosphorous occurs in minerals of the apatite
    family.
  • As, Sb,Bi occur mainly as sulfide minerals.
  • The electron configuration is ns2np3.
  • P and N are very different in their chemistry.
  • P is a true non metal, down the period the
    metallic trend is increasing.

29
Phosphorus
  • Differences between N and P
  • Diminished ability to form pp- pp multiple bonds
  • The possibility to use the lower 3d orbitals
  • Nitrogen forms esters, phosphorus gives P(OR)3.
    Nitrogen oxides and oxoacids involve multiple
    bonds, whereas the phosphorus oxides have single
    bonds. Phosphoric acid PO(OH)3 in contrast
    NO2(OH).

30
Elements
  • Phosphorus is obtained by reduction of phosphate
    rocks.
  • Phosphorus distills and is condensed in water.
  • White P is stored under water to protect from
    air.
  • Red and black P are stable in air, burn on
    heating.
  • P is soluble in organic solvents.

31
Elements
  • As,Sb,Bi are obyained by reduction of the oxides
    with carbon or Hydrogen.
  • All elements react readily with halogens.
  • Nitric acid ? Phosphoric acid, arsenic acid, Sb
    trioxide and Bi nitrate.
  • Interactions with metals gives phosphides,
    arsenides, ....
  • GaAs has semiconductor properties.

32
Hydrides
  • The stability of the hydrides decreases down the
    period.
  • Sb and Bi hydrides are very unstable.
  • Phosphine is made from the reaction of acids with
    zinc phosphide.
  • Phosphine is a nerve toxin..

33
Halides
  • Trihalides are obtained by direct reaction with
    halogens.
  • They rapidly hydrolize in water
  • Gaseous molecules have pyramidal structure.
  • Iodides of As,SB,and Bi have layer structures
    based on hexagonal closed packing of iodine atoms
    with the group VB elements.
  • Phosphorus trifluoride is a colorless toxic gas.
  • It is slowly attacked by water and rapidly by
    alkali.

34
Important reactions of P and Halides
35
Oxides
  • Phosphorus pentoxide (P4O10)
  • It is used as one of the most effective drying
    agents. Reacts with water to form phosphoric acid

36
Oxo acids
  • Phosphoric acid
  • PCl3 or P4O6 are hydrolised in water
  • Phosphorus acid Hypophosphorus acid

37
Oxo acids
  • Orthophosphoric acid
  • Is the oldest known phosphorus compounds. It is a
    syrupy liquid made by direct reaction of ground
    phhosphate rock with sulfuric acid.
  • The pure acid is a colorless cyrstalline solid.
  • Stable and has no oxidising properties below
    350-400 degC.
  • It will attack quartz.
  • Hydrogen bonding persists in the concentrated
    solution and is respåonsible ofr the syrupy
    behaviour.

38
Summary of Group trends
39
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40
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41
Summary of reactions of P4
42
Summary of reactions of PCl5
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