ionic bonds and main group chemistry
DESCRIPTION
Ionic bonds and main group chemistry. Towards the noble gas configuration. Noble gases are unreactive – they have filled shells Shells of reactive elements are unfilled Achieve noble gas configuration by gaining or losing electrons Metals lose electrons – form positive ions - PowerPoint PPT PresentationTRANSCRIPT
![Page 1: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/1.jpg)
Ionic bonds and main Ionic bonds and main group chemistrygroup chemistry
![Page 2: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/2.jpg)
Towards the noble gas configurationTowards the noble gas configuration
Noble gases are unreactive – they have filled Noble gases are unreactive – they have filled shellsshells
Shells of reactive elements are unfilledShells of reactive elements are unfilled Achieve noble gas configuration by gaining or Achieve noble gas configuration by gaining or
losing electronslosing electrons Metals lose electrons – form positive ionsMetals lose electrons – form positive ions Nonmetals gain electrons – form negative ionsNonmetals gain electrons – form negative ions
![Page 3: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/3.jpg)
Lewis dot modelLewis dot model The nucleus and all of the core electrons are represented by The nucleus and all of the core electrons are represented by
the element symbolthe element symbol The valence electrons are represented by dots – one for eachThe valence electrons are represented by dots – one for each Number of dots in Lewis model is equal to group number (in Number of dots in Lewis model is equal to group number (in
1 – 8 system)1 – 8 system)
![Page 4: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/4.jpg)
The Octet RuleThe Octet Rule
All elements strive to All elements strive to become a noble gas, at become a noble gas, at least as far as the least as far as the electrons are concerned.electrons are concerned.
Filling the outer shell – Filling the outer shell – 8 electrons 8 electrons
Achieve this by adding Achieve this by adding electronselectrons
Or taking them awayOr taking them away
![Page 5: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/5.jpg)
Predicting ion chargesPredicting ion charges
s and p block elements are easy: s and p block elements are easy: charge = group number for cationscharge = group number for cations charge = -(8 – group number) for anionscharge = -(8 – group number) for anions
![Page 6: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/6.jpg)
Less predictable for transition Less predictable for transition metalsmetals
Occurrence of variable ionic chargeOccurrence of variable ionic charge CrCr2+2+, Cr, Cr3+3+, Cr, Cr4+4+, Cr, Cr6+6+ etc. etc.
4s electrons are lost first and then the 3d4s electrons are lost first and then the 3d Desirable configurations coincide with empty, Desirable configurations coincide with empty,
half-filled or filled 3d orbitalshalf-filled or filled 3d orbitals FeFe2+2+ ([Ar]3d ([Ar]3d66) is less stable than Fe) is less stable than Fe3+3+ ([Ar]3d ([Ar]3d55))
![Page 7: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/7.jpg)
Ionic size and chargeIonic size and charge
Loss of electrons Loss of electrons increases the effective increases the effective nuclear charge – ion nuclear charge – ion shrinksshrinks
Gain of electrons Gain of electrons decreases the effective decreases the effective nuclear charge – ion nuclear charge – ion expandsexpands
![Page 8: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/8.jpg)
Ionization energyIonization energy Energy required to remove an electron from a Energy required to remove an electron from a
neutral gaseous atomneutral gaseous atom Always positiveAlways positive Follows periodic trendFollows periodic trend
Increases across periodIncreases across period Decreases down groupDecreases down group
Removal of electrons from filled or half-filled shells is not as favourableRemoval of electrons from filled or half-filled shells is not as favourable
[He]2s2
[He]2s22p3
[He]2s22p4
[He]2s22p1
![Page 9: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/9.jpg)
Higher ionization energiesHigher ionization energies
Depend on group numberDepend on group number Much harder to remove electrons from a filled shellMuch harder to remove electrons from a filled shell Stepwise trend below illustrates thisStepwise trend below illustrates this Partially filled –
valence electronsCompletely
filled – core electrons
![Page 10: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/10.jpg)
Electron affinityElectron affinity Energy released on adding an electron to a neutral gaseous Energy released on adding an electron to a neutral gaseous
atomatom Values are either Values are either
negative – energy released, meaning negative ion formation is favourablenegative – energy released, meaning negative ion formation is favourable Or zero – meaning can’t be measured and negative ions are not formedOr zero – meaning can’t be measured and negative ions are not formed
Addition of electrons to filled or half-filled shells is not favoured (e.g. He, N)Addition of electrons to filled or half-filled shells is not favoured (e.g. He, N) It is easier to add an electron to Na (3sIt is easier to add an electron to Na (3s11) than to Mg (3s) than to Mg (3s22))
![Page 11: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/11.jpg)
Ionic bondingIonic bonding
Reaction between elements that form positive and Reaction between elements that form positive and negative ionsnegative ions Metals (Metals (positivepositive ions) and nonmetals ( ions) and nonmetals (negativenegative ions) ions)
Neutral Na + Cl Neutral Na + Cl → ionic→ ionic Na Na++ClCl--
[Ne]3s[Ne]3s11 + [Ne]3s + [Ne]3s223p3p55 = [Ne] = [Ne]++ + [Ar] + [Ar]--
![Page 12: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/12.jpg)
Stability of the ionic latticeStability of the ionic lattice
Simply forming ions does not give an energy payout:Simply forming ions does not give an energy payout: EEii(Na) = 496 kJ/mol(Na) = 496 kJ/mol
EEaa(Cl) = -349 kJ/mol(Cl) = -349 kJ/mol
Net energy investment requiredNet energy investment required Formation of a crystal lattice releases energyFormation of a crystal lattice releases energy The The lattice energylattice energy is the energy released on bringing is the energy released on bringing
ions from the gas phase into the solid latticeions from the gas phase into the solid lattice Depends on coulombic attraction between ionsDepends on coulombic attraction between ions
-U = -U = κκzz11zz22/d (/d (κκ = 8.99x10 = 8.99x1099 JmC JmC-2-2
![Page 13: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/13.jpg)
Born-Haber cycle for calculating Born-Haber cycle for calculating energyenergy
The lattice energy can be obtained using other The lattice energy can be obtained using other experimentally determined quantities and the energy experimentally determined quantities and the energy cyclecycle
![Page 14: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/14.jpg)
Lattice energies follow simple trendsLattice energies follow simple trends
As ionic charge As ionic charge increasesincreases, U , U increases increases ((U U z z11zz22)) As ion size As ion size decreasesdecreases, U , U increases increases (U (U 1/d) 1/d)
U(LiF) > U(LiCl) > U(LiBr)U(LiF) > U(LiCl) > U(LiBr) U(NaI) < U(MgIU(NaI) < U(MgI22) < U(AlI) < U(AlI33))
![Page 15: Ionic bonds and main group chemistry](https://reader036.vdocuments.us/reader036/viewer/2022081511/56813589550346895d9cecb9/html5/thumbnails/15.jpg)
The Octet RuleThe Octet Rule
Main-group elements undergo reactions which Main-group elements undergo reactions which leave them with eight valence electronsleave them with eight valence electrons Group 1 (Group 1 (nsns11) M) M++
Group 2 (Group 2 (nsns22) M) M2+2+
Group 6 (Group 6 (nsns22npnp44) X) X2-2-
Group 7 (Group 7 (nsns22npnp55) X) X--
Works very well for second row (Li – F)Works very well for second row (Li – F) Many violations in heavier Many violations in heavier pp-block elements -block elements
(Pb(Pb2+2+, Tl, Tl++, Sb, Sb3+3+))