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Complex Ions

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Complex Ions Complex Ion An ion formed when a positive central element binds with multiple ions or polar molecules Complex Ion Equilibria Calculate the ratio of [Cu+2 ... – PowerPoint PPT presentation

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Title: Complex Ions


1
Complex Ions
2
Complex Ion
  • An ion formed when a positive central element
    binds with multiple ions or polar molecules

3
Complex Ion
  • The central element is almost always a positively
    charged metal

4
Describe or define a Complex Ion
5
Anion
  • Negatively charged ion

6
Cation
  • Positively charged ion

7
Metal Ion Examples
  • Cu2 Cu Au
  • Ag Zn2 Ni2
  • Pt2 Co2 Al3

8
Ligands
  • The negative ions or polar molecules bound by the
    central element in a complex ion

9
Ligand Examples
  • Cl- F- H2O
  • NH3 CN- Br-
  • NO O2 OH-

10
Polydentate Ligands
  • Ligands that can bind to more than one point

11
Bidentate Ligands
  • Ligands that can bind to two points in a complex
    ion

12
Bidentate Examples
  • H2N-CH2-CH2-NH2
  • -O2C-CO2-

13
Tridentate Ligands
  • Ligands that can bind to three points in a
    complex ion

14
Tridentate Examples
  • H2-C-COO-
  • HO-C-COO-
  • H2-C-COO-

15
Chelates
  • Polydentate ligands that bind to metal ions in
    solution

16
Coordination Number
  • The number of points in which ligands bind to the
    central element in a complex ion

17
Coordinate Covalent Bond
  • Covalent bonds in which both electrons involved
    are donated by one atom

18
Complex Ions
  • The bonds formed in a complex ion are coordinate
    covalent bonds

19
Coordination Complex
  • A complex ion and its counter ion

20
Complex Ions
  • The bonds formed in a complex ion are coordinate
    covalent bonds

21
Complex Ion
  • Because of the type bonding, they are sometimes
    called coordinate complexes

22
  • 1) Name cations before anions

23
Naming Complexes
  • 2) Name ligands before metal in the complex ion

24
2) Naming Ligands
  • a) give neutral compds normal names except

25
  • H2O aqua
  • NH3 amine
  • CO carbonyl
  • NO nitrosyl

26
2) Naming Ligands
  • b) change -ide endings to -o for all anions

27
2) Naming Ligands
  • d) use geometric prefixes for monodentate ligands

28
2) Naming Ligands
  • e) use bis- for 2 tris- for 3 polydentate
    ligands

29
3) Naming Metal
  • a) use the normal name if the complex ion is ()

30
3) Naming Metal
  • b) make the metal ending -ate if the complex ion
    is (-)

31
3) Naming Metal
  • d) use Roman numerals in () to indicate metal ox

32
Name the Following
  • Pt(NH3)4Cl2
  • Co(H2O)2Cl4-2
  • Cu(H2O)2(en)2I2

33
Predict of isomers of each
  • Pt(NH3)4 Cl2
  • Co(H2O)3Cl3

34
Complex Ion Shapes
  • 2-linear
  • 4-tetrahedral or sq pl
  • 6-octahedral

35
Geometric Isomers
  • Square planar vs tetrahedral
  • cis vs trans

36
Geometric Isomers
  • Bunched octa-
  • T-shaped octa-
  • bis cis vs trans

37
Optical Isomers
  • Tri-bis mirror images

38
Field Strength
  • CN- gt NO2- gt en gt NH3 gt NCS- gt H2O gt F- gt Cl-

39
Field Strength
  • CN- is strong field
  • Cl- is weak field

40
Field Strength
  • Determines d-level splitting or Do(splitting
    energy)

41
Field Strength
  • Large Do yields low spin or diamagnetic compds

42
Field Strength
  • Small Do yields high spin or paramagnetic compds

43
Pt(NH3)2I4-2
  • Determine
  • Name, shape, possible isomerism

44
Co(NH3)63 yellow Co(NH3)5NCS2
orange Co(NH3)5H2O2
red Co(NH3)5Cl2
purple t-Co(NH3)4Cl21 green
45
Complex Ion Equilibria
Cu2 4 NH3 Cu(NH3)42
Cu(NH3)42 Cu2NH34
Kf
46
Calculate the ratio of Cu2/ Cu(NH3)42 when
Cu2 is added to a 0.10 M NH3 solutionKf
2.0 x 1012
47
Common Ion Equilibria
  • The larger the Kf, the more likely the complex
    will form

48
Common Ion Equilibria
  • Kf for Ag(NH3)21
  • 1.7 x 107
  • Kf for Ag(CN)2-1
  • 2.0 x 1020

49
Common Ion Equilibria
  • Kf for M(NH3)22
  • 1.7 x 107
  • Kf for M(CN)4-2
  • 2.0 x 1020

50
Common Ion Equilibria
CN- will replace NH3 in the complex with silver
51
Calculate a) coordination b) number of
isomersc) oxidation of metal
  • Zn(NH3)2H2OF1
  • Co(NH3)3ClFI-1
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