the electron deficient borane molecule -...
TRANSCRIPT
![Page 1: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/1.jpg)
Why is Borane Electron-Deficient?
The Electron Deficient Borane Molecule
Christopher C. Cummins
Massachusetts Institute of Technology
5.03 Lecture 4 Electron Deficient Molecules
![Page 2: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/2.jpg)
Why is Borane Electron-Deficient?
Outline
1 Why is Borane Electron-Deficient?
5.03 Lecture 4 Electron Deficient Molecules
![Page 3: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/3.jpg)
Why is Borane Electron-Deficient?
Borane DimerizesWhat is the energy of the dimerization reaction?
∆H◦f (gas) for BH3 = 25.5 kcal/mol
∆H◦f (gas) for B2H6 = 9.799 kcal/mol
∆H◦rxn(gas) for 2 BH3 → B2H6 = 9.799− 2(25.5) = −41
kcal/mol
The C2H4 molecule is isoelectronic, how does its central bondenergy compare?
Look up the requisite ∆H◦f values in the NIST database
We look to interpret the bonding in B2H6 using symmetry andMO theory
5.03 Lecture 4 Electron Deficient Molecules
![Page 4: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/4.jpg)
Why is Borane Electron-Deficient?
Borane DimerizesWhat is the energy of the dimerization reaction?
∆H◦f (gas) for BH3 = 25.5 kcal/mol
∆H◦f (gas) for B2H6 = 9.799 kcal/mol
∆H◦rxn(gas) for 2 BH3 → B2H6 = 9.799− 2(25.5) = −41
kcal/mol
The C2H4 molecule is isoelectronic, how does its central bondenergy compare?
Look up the requisite ∆H◦f values in the NIST database
We look to interpret the bonding in B2H6 using symmetry andMO theory
5.03 Lecture 4 Electron Deficient Molecules
![Page 5: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/5.jpg)
Why is Borane Electron-Deficient?
Borane DimerizesWhat is the energy of the dimerization reaction?
∆H◦f (gas) for BH3 = 25.5 kcal/mol
∆H◦f (gas) for B2H6 = 9.799 kcal/mol
∆H◦rxn(gas) for 2 BH3 → B2H6 = 9.799− 2(25.5) = −41
kcal/mol
The C2H4 molecule is isoelectronic, how does its central bondenergy compare?
Look up the requisite ∆H◦f values in the NIST database
We look to interpret the bonding in B2H6 using symmetry andMO theory
5.03 Lecture 4 Electron Deficient Molecules
![Page 6: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/6.jpg)
Why is Borane Electron-Deficient?
Borane DimerizesWhat is the energy of the dimerization reaction?
∆H◦f (gas) for BH3 = 25.5 kcal/mol
∆H◦f (gas) for B2H6 = 9.799 kcal/mol
∆H◦rxn(gas) for 2 BH3 → B2H6 = 9.799− 2(25.5) = −41
kcal/mol
The C2H4 molecule is isoelectronic, how does its central bondenergy compare?
Look up the requisite ∆H◦f values in the NIST database
We look to interpret the bonding in B2H6 using symmetry andMO theory
5.03 Lecture 4 Electron Deficient Molecules
![Page 7: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/7.jpg)
Why is Borane Electron-Deficient?
Borane DimerizesWhat is the energy of the dimerization reaction?
∆H◦f (gas) for BH3 = 25.5 kcal/mol
∆H◦f (gas) for B2H6 = 9.799 kcal/mol
∆H◦rxn(gas) for 2 BH3 → B2H6 = 9.799− 2(25.5) = −41
kcal/mol
The C2H4 molecule is isoelectronic, how does its central bondenergy compare?
Look up the requisite ∆H◦f values in the NIST database
We look to interpret the bonding in B2H6 using symmetry andMO theory
5.03 Lecture 4 Electron Deficient Molecules
![Page 8: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/8.jpg)
Why is Borane Electron-Deficient?
Borane DimerizesWhat is the energy of the dimerization reaction?
∆H◦f (gas) for BH3 = 25.5 kcal/mol
∆H◦f (gas) for B2H6 = 9.799 kcal/mol
∆H◦rxn(gas) for 2 BH3 → B2H6 = 9.799− 2(25.5) = −41
kcal/mol
The C2H4 molecule is isoelectronic, how does its central bondenergy compare?
Look up the requisite ∆H◦f values in the NIST database
We look to interpret the bonding in B2H6 using symmetry andMO theory
5.03 Lecture 4 Electron Deficient Molecules
![Page 9: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/9.jpg)
Why is Borane Electron-Deficient?
Do we Expect to Find B-B Bonding in Diborane?Examine the structure and check the B-B distance
The covalent radius rcov for boron is 0.81 A
Therefore, a B-B single bond is expected to be 2(rcov ) = 1.62A
Right-click in the diborane applet to get access to theinteratomic distances
We find the B-B distance to be 1.76 A
This is longer by 0.14 A than a B-B single bond
We might expect some partial B-B bonding
Let’s investigate the bonding with MO theory!
5.03 Lecture 4 Electron Deficient Molecules
![Page 10: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/10.jpg)
Why is Borane Electron-Deficient?
Do we Expect to Find B-B Bonding in Diborane?Examine the structure and check the B-B distance
The covalent radius rcov for boron is 0.81 A
Therefore, a B-B single bond is expected to be 2(rcov ) = 1.62A
Right-click in the diborane applet to get access to theinteratomic distances
We find the B-B distance to be 1.76 A
This is longer by 0.14 A than a B-B single bond
We might expect some partial B-B bonding
Let’s investigate the bonding with MO theory!
5.03 Lecture 4 Electron Deficient Molecules
![Page 11: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/11.jpg)
Why is Borane Electron-Deficient?
Do we Expect to Find B-B Bonding in Diborane?Examine the structure and check the B-B distance
The covalent radius rcov for boron is 0.81 A
Therefore, a B-B single bond is expected to be 2(rcov ) = 1.62A
Right-click in the diborane applet to get access to theinteratomic distances
We find the B-B distance to be 1.76 A
This is longer by 0.14 A than a B-B single bond
We might expect some partial B-B bonding
Let’s investigate the bonding with MO theory!
5.03 Lecture 4 Electron Deficient Molecules
![Page 12: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/12.jpg)
Why is Borane Electron-Deficient?
Do we Expect to Find B-B Bonding in Diborane?Examine the structure and check the B-B distance
The covalent radius rcov for boron is 0.81 A
Therefore, a B-B single bond is expected to be 2(rcov ) = 1.62A
Right-click in the diborane applet to get access to theinteratomic distances
We find the B-B distance to be 1.76 A
This is longer by 0.14 A than a B-B single bond
We might expect some partial B-B bonding
Let’s investigate the bonding with MO theory!
5.03 Lecture 4 Electron Deficient Molecules
![Page 13: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/13.jpg)
Why is Borane Electron-Deficient?
Do we Expect to Find B-B Bonding in Diborane?Examine the structure and check the B-B distance
The covalent radius rcov for boron is 0.81 A
Therefore, a B-B single bond is expected to be 2(rcov ) = 1.62A
Right-click in the diborane applet to get access to theinteratomic distances
We find the B-B distance to be 1.76 A
This is longer by 0.14 A than a B-B single bond
We might expect some partial B-B bonding
Let’s investigate the bonding with MO theory!
5.03 Lecture 4 Electron Deficient Molecules
![Page 14: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/14.jpg)
Why is Borane Electron-Deficient?
Do we Expect to Find B-B Bonding in Diborane?Examine the structure and check the B-B distance
The covalent radius rcov for boron is 0.81 A
Therefore, a B-B single bond is expected to be 2(rcov ) = 1.62A
Right-click in the diborane applet to get access to theinteratomic distances
We find the B-B distance to be 1.76 A
This is longer by 0.14 A than a B-B single bond
We might expect some partial B-B bonding
Let’s investigate the bonding with MO theory!
5.03 Lecture 4 Electron Deficient Molecules
![Page 15: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/15.jpg)
Why is Borane Electron-Deficient?
Do we Expect to Find B-B Bonding in Diborane?Examine the structure and check the B-B distance
The covalent radius rcov for boron is 0.81 A
Therefore, a B-B single bond is expected to be 2(rcov ) = 1.62A
Right-click in the diborane applet to get access to theinteratomic distances
We find the B-B distance to be 1.76 A
This is longer by 0.14 A than a B-B single bond
We might expect some partial B-B bonding
Let’s investigate the bonding with MO theory!
5.03 Lecture 4 Electron Deficient Molecules
![Page 16: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/16.jpg)
Why is Borane Electron-Deficient?
Begin by Choosing our Coordinate SystemThis is not a planar molecule
Take the B-B axis to define the z direction
Take the pair of bridging H atoms Hb to define the y direction
Then the four terminal atoms Ht lie in the xz plane but noton any of the Cartesian axes
Note that there is no central atom in this problem!
This carries the implication that none of the MOs can be assimple as one of the atomic orbitals on a central atom as wasthe case for the HOMO of the water molecule
5.03 Lecture 4 Electron Deficient Molecules
![Page 17: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/17.jpg)
Why is Borane Electron-Deficient?
Begin by Choosing our Coordinate SystemThis is not a planar molecule
Take the B-B axis to define the z direction
Take the pair of bridging H atoms Hb to define the y direction
Then the four terminal atoms Ht lie in the xz plane but noton any of the Cartesian axes
Note that there is no central atom in this problem!
This carries the implication that none of the MOs can be assimple as one of the atomic orbitals on a central atom as wasthe case for the HOMO of the water molecule
5.03 Lecture 4 Electron Deficient Molecules
![Page 18: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/18.jpg)
Why is Borane Electron-Deficient?
Begin by Choosing our Coordinate SystemThis is not a planar molecule
Take the B-B axis to define the z direction
Take the pair of bridging H atoms Hb to define the y direction
Then the four terminal atoms Ht lie in the xz plane but noton any of the Cartesian axes
Note that there is no central atom in this problem!
This carries the implication that none of the MOs can be assimple as one of the atomic orbitals on a central atom as wasthe case for the HOMO of the water molecule
5.03 Lecture 4 Electron Deficient Molecules
![Page 19: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/19.jpg)
Why is Borane Electron-Deficient?
Begin by Choosing our Coordinate SystemThis is not a planar molecule
Take the B-B axis to define the z direction
Take the pair of bridging H atoms Hb to define the y direction
Then the four terminal atoms Ht lie in the xz plane but noton any of the Cartesian axes
Note that there is no central atom in this problem!
This carries the implication that none of the MOs can be assimple as one of the atomic orbitals on a central atom as wasthe case for the HOMO of the water molecule
5.03 Lecture 4 Electron Deficient Molecules
![Page 20: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/20.jpg)
Why is Borane Electron-Deficient?
Begin by Choosing our Coordinate SystemThis is not a planar molecule
Take the B-B axis to define the z direction
Take the pair of bridging H atoms Hb to define the y direction
Then the four terminal atoms Ht lie in the xz plane but noton any of the Cartesian axes
Note that there is no central atom in this problem!
This carries the implication that none of the MOs can be assimple as one of the atomic orbitals on a central atom as wasthe case for the HOMO of the water molecule
5.03 Lecture 4 Electron Deficient Molecules
![Page 21: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/21.jpg)
Why is Borane Electron-Deficient?
More Restrictions on the MOsThis is not a planar molecule
Boron has four valence atomic orbitals: 2s, 2px , 2py , 2pz
There are six H atoms each with a single 1s valence orbital
All of the MOs will be combinations of the 4 + 4 + 6 = 14valence atomic orbitals; each combination must belong to oneof the irreducible representations of the D2h point group
Will all 14 of the MOs be occupied?
The number of valence electron pairs is six
We expect the lowest-energy six MOs to be occupied, and thehigher-energy MOs to be vacant
5.03 Lecture 4 Electron Deficient Molecules
![Page 22: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/22.jpg)
Why is Borane Electron-Deficient?
More Restrictions on the MOsThis is not a planar molecule
Boron has four valence atomic orbitals: 2s, 2px , 2py , 2pz
There are six H atoms each with a single 1s valence orbital
All of the MOs will be combinations of the 4 + 4 + 6 = 14valence atomic orbitals; each combination must belong to oneof the irreducible representations of the D2h point group
Will all 14 of the MOs be occupied?
The number of valence electron pairs is six
We expect the lowest-energy six MOs to be occupied, and thehigher-energy MOs to be vacant
5.03 Lecture 4 Electron Deficient Molecules
![Page 23: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/23.jpg)
Why is Borane Electron-Deficient?
More Restrictions on the MOsThis is not a planar molecule
Boron has four valence atomic orbitals: 2s, 2px , 2py , 2pz
There are six H atoms each with a single 1s valence orbital
All of the MOs will be combinations of the 4 + 4 + 6 = 14valence atomic orbitals; each combination must belong to oneof the irreducible representations of the D2h point group
Will all 14 of the MOs be occupied?
The number of valence electron pairs is six
We expect the lowest-energy six MOs to be occupied, and thehigher-energy MOs to be vacant
5.03 Lecture 4 Electron Deficient Molecules
![Page 24: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/24.jpg)
Why is Borane Electron-Deficient?
More Restrictions on the MOsThis is not a planar molecule
Boron has four valence atomic orbitals: 2s, 2px , 2py , 2pz
There are six H atoms each with a single 1s valence orbital
All of the MOs will be combinations of the 4 + 4 + 6 = 14valence atomic orbitals; each combination must belong to oneof the irreducible representations of the D2h point group
Will all 14 of the MOs be occupied?
The number of valence electron pairs is six
We expect the lowest-energy six MOs to be occupied, and thehigher-energy MOs to be vacant
5.03 Lecture 4 Electron Deficient Molecules
![Page 25: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/25.jpg)
Why is Borane Electron-Deficient?
More Restrictions on the MOsThis is not a planar molecule
Boron has four valence atomic orbitals: 2s, 2px , 2py , 2pz
There are six H atoms each with a single 1s valence orbital
All of the MOs will be combinations of the 4 + 4 + 6 = 14valence atomic orbitals; each combination must belong to oneof the irreducible representations of the D2h point group
Will all 14 of the MOs be occupied?
The number of valence electron pairs is six
We expect the lowest-energy six MOs to be occupied, and thehigher-energy MOs to be vacant
5.03 Lecture 4 Electron Deficient Molecules
![Page 26: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/26.jpg)
Why is Borane Electron-Deficient?
More Restrictions on the MOsThis is not a planar molecule
Boron has four valence atomic orbitals: 2s, 2px , 2py , 2pz
There are six H atoms each with a single 1s valence orbital
All of the MOs will be combinations of the 4 + 4 + 6 = 14valence atomic orbitals; each combination must belong to oneof the irreducible representations of the D2h point group
Will all 14 of the MOs be occupied?
The number of valence electron pairs is six
We expect the lowest-energy six MOs to be occupied, and thehigher-energy MOs to be vacant
5.03 Lecture 4 Electron Deficient Molecules
![Page 27: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/27.jpg)
Why is Borane Electron-Deficient?
The D2h Character Table
5.03 Lecture 4 Electron Deficient Molecules
![Page 28: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/28.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Atoms or atomic orbitals are “symmetry-related” if they areinterchanged upon carrying out the operations of the group
The four terminal hydrogens Ht (each has a 1s atomic orbital)are symmetry related
The two bridging hydrogens Hb are symmetry related
None of the group operations interchanges any of the Ht withany of the Hb atoms/orbitals
We can use the Ht set to generate the reduciblerepresentation Γred = 4 0 0 0 0 0 4 0
The characters of Γred(Ht) are obtained by noting how manyatoms in the Ht set are unshifted upon carrying out the groupoperations
The characters of Γred(Ht) = Ag + B2g + B1u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 29: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/29.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Atoms or atomic orbitals are “symmetry-related” if they areinterchanged upon carrying out the operations of the group
The four terminal hydrogens Ht (each has a 1s atomic orbital)are symmetry related
The two bridging hydrogens Hb are symmetry related
None of the group operations interchanges any of the Ht withany of the Hb atoms/orbitals
We can use the Ht set to generate the reduciblerepresentation Γred = 4 0 0 0 0 0 4 0
The characters of Γred(Ht) are obtained by noting how manyatoms in the Ht set are unshifted upon carrying out the groupoperations
The characters of Γred(Ht) = Ag + B2g + B1u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 30: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/30.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Atoms or atomic orbitals are “symmetry-related” if they areinterchanged upon carrying out the operations of the group
The four terminal hydrogens Ht (each has a 1s atomic orbital)are symmetry related
The two bridging hydrogens Hb are symmetry related
None of the group operations interchanges any of the Ht withany of the Hb atoms/orbitals
We can use the Ht set to generate the reduciblerepresentation Γred = 4 0 0 0 0 0 4 0
The characters of Γred(Ht) are obtained by noting how manyatoms in the Ht set are unshifted upon carrying out the groupoperations
The characters of Γred(Ht) = Ag + B2g + B1u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 31: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/31.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Atoms or atomic orbitals are “symmetry-related” if they areinterchanged upon carrying out the operations of the group
The four terminal hydrogens Ht (each has a 1s atomic orbital)are symmetry related
The two bridging hydrogens Hb are symmetry related
None of the group operations interchanges any of the Ht withany of the Hb atoms/orbitals
We can use the Ht set to generate the reduciblerepresentation Γred = 4 0 0 0 0 0 4 0
The characters of Γred(Ht) are obtained by noting how manyatoms in the Ht set are unshifted upon carrying out the groupoperations
The characters of Γred(Ht) = Ag + B2g + B1u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 32: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/32.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Atoms or atomic orbitals are “symmetry-related” if they areinterchanged upon carrying out the operations of the group
The four terminal hydrogens Ht (each has a 1s atomic orbital)are symmetry related
The two bridging hydrogens Hb are symmetry related
None of the group operations interchanges any of the Ht withany of the Hb atoms/orbitals
We can use the Ht set to generate the reduciblerepresentation Γred = 4 0 0 0 0 0 4 0
The characters of Γred(Ht) are obtained by noting how manyatoms in the Ht set are unshifted upon carrying out the groupoperations
The characters of Γred(Ht) = Ag + B2g + B1u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 33: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/33.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Atoms or atomic orbitals are “symmetry-related” if they areinterchanged upon carrying out the operations of the group
The four terminal hydrogens Ht (each has a 1s atomic orbital)are symmetry related
The two bridging hydrogens Hb are symmetry related
None of the group operations interchanges any of the Ht withany of the Hb atoms/orbitals
We can use the Ht set to generate the reduciblerepresentation Γred = 4 0 0 0 0 0 4 0
The characters of Γred(Ht) are obtained by noting how manyatoms in the Ht set are unshifted upon carrying out the groupoperations
The characters of Γred(Ht) = Ag + B2g + B1u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 34: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/34.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Atoms or atomic orbitals are “symmetry-related” if they areinterchanged upon carrying out the operations of the group
The four terminal hydrogens Ht (each has a 1s atomic orbital)are symmetry related
The two bridging hydrogens Hb are symmetry related
None of the group operations interchanges any of the Ht withany of the Hb atoms/orbitals
We can use the Ht set to generate the reduciblerepresentation Γred = 4 0 0 0 0 0 4 0
The characters of Γred(Ht) are obtained by noting how manyatoms in the Ht set are unshifted upon carrying out the groupoperations
The characters of Γred(Ht) = Ag + B2g + B1u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 35: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/35.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Since the characters of Γred(Ht) = Ag + B2g + B1u + B3u, weexpect the four 1s orbitals of the Ht set to appear in MOshaving these four symmetry species
What about the pair of Hb atoms?
We can use the Hb set to generate the reduciblerepresentation Γred = 2 0 2 0 0 2 0 2
Γred(Hb) can be reduced to Ag + B2u
Therefore, we expect the Hb 1s atomic orbitals to contributeto a pair of bonding MOs having Ag and B2u symmetry
Note, from the Lewis picture of B2H6, we can expect that allsix valence electron pairs reside in MOs that have bondingcharacter involving the hydrogen atoms
Now, we expect the six occupied MOs to transform as2Ag + B2g + B1u + B2u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 36: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/36.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Since the characters of Γred(Ht) = Ag + B2g + B1u + B3u, weexpect the four 1s orbitals of the Ht set to appear in MOshaving these four symmetry species
What about the pair of Hb atoms?
We can use the Hb set to generate the reduciblerepresentation Γred = 2 0 2 0 0 2 0 2
Γred(Hb) can be reduced to Ag + B2u
Therefore, we expect the Hb 1s atomic orbitals to contributeto a pair of bonding MOs having Ag and B2u symmetry
Note, from the Lewis picture of B2H6, we can expect that allsix valence electron pairs reside in MOs that have bondingcharacter involving the hydrogen atoms
Now, we expect the six occupied MOs to transform as2Ag + B2g + B1u + B2u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 37: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/37.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Since the characters of Γred(Ht) = Ag + B2g + B1u + B3u, weexpect the four 1s orbitals of the Ht set to appear in MOshaving these four symmetry species
What about the pair of Hb atoms?
We can use the Hb set to generate the reduciblerepresentation Γred = 2 0 2 0 0 2 0 2
Γred(Hb) can be reduced to Ag + B2u
Therefore, we expect the Hb 1s atomic orbitals to contributeto a pair of bonding MOs having Ag and B2u symmetry
Note, from the Lewis picture of B2H6, we can expect that allsix valence electron pairs reside in MOs that have bondingcharacter involving the hydrogen atoms
Now, we expect the six occupied MOs to transform as2Ag + B2g + B1u + B2u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 38: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/38.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Since the characters of Γred(Ht) = Ag + B2g + B1u + B3u, weexpect the four 1s orbitals of the Ht set to appear in MOshaving these four symmetry species
What about the pair of Hb atoms?
We can use the Hb set to generate the reduciblerepresentation Γred = 2 0 2 0 0 2 0 2
Γred(Hb) can be reduced to Ag + B2u
Therefore, we expect the Hb 1s atomic orbitals to contributeto a pair of bonding MOs having Ag and B2u symmetry
Note, from the Lewis picture of B2H6, we can expect that allsix valence electron pairs reside in MOs that have bondingcharacter involving the hydrogen atoms
Now, we expect the six occupied MOs to transform as2Ag + B2g + B1u + B2u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 39: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/39.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Since the characters of Γred(Ht) = Ag + B2g + B1u + B3u, weexpect the four 1s orbitals of the Ht set to appear in MOshaving these four symmetry species
What about the pair of Hb atoms?
We can use the Hb set to generate the reduciblerepresentation Γred = 2 0 2 0 0 2 0 2
Γred(Hb) can be reduced to Ag + B2u
Therefore, we expect the Hb 1s atomic orbitals to contributeto a pair of bonding MOs having Ag and B2u symmetry
Note, from the Lewis picture of B2H6, we can expect that allsix valence electron pairs reside in MOs that have bondingcharacter involving the hydrogen atoms
Now, we expect the six occupied MOs to transform as2Ag + B2g + B1u + B2u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 40: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/40.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Since the characters of Γred(Ht) = Ag + B2g + B1u + B3u, weexpect the four 1s orbitals of the Ht set to appear in MOshaving these four symmetry species
What about the pair of Hb atoms?
We can use the Hb set to generate the reduciblerepresentation Γred = 2 0 2 0 0 2 0 2
Γred(Hb) can be reduced to Ag + B2u
Therefore, we expect the Hb 1s atomic orbitals to contributeto a pair of bonding MOs having Ag and B2u symmetry
Note, from the Lewis picture of B2H6, we can expect that allsix valence electron pairs reside in MOs that have bondingcharacter involving the hydrogen atoms
Now, we expect the six occupied MOs to transform as2Ag + B2g + B1u + B2u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 41: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/41.jpg)
Why is Borane Electron-Deficient?
Finding the Symmetry Species of the MOsStart by looking for sets of symmetry-related atoms/orbitals
Since the characters of Γred(Ht) = Ag + B2g + B1u + B3u, weexpect the four 1s orbitals of the Ht set to appear in MOshaving these four symmetry species
What about the pair of Hb atoms?
We can use the Hb set to generate the reduciblerepresentation Γred = 2 0 2 0 0 2 0 2
Γred(Hb) can be reduced to Ag + B2u
Therefore, we expect the Hb 1s atomic orbitals to contributeto a pair of bonding MOs having Ag and B2u symmetry
Note, from the Lewis picture of B2H6, we can expect that allsix valence electron pairs reside in MOs that have bondingcharacter involving the hydrogen atoms
Now, we expect the six occupied MOs to transform as2Ag + B2g + B1u + B2u + B3u
5.03 Lecture 4 Electron Deficient Molecules
![Page 42: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/42.jpg)
Why is Borane Electron-Deficient?
How to Interpret the MO energiesRemember what you know about AO energies
the Valence Orbital Ionization Energy (VOIE) for a hydrogen1s orbital is 13.6 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2sorbital is 14.0 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2porbital is 8.3 eV
MOs constructed from low-energy (electronegative) AOs willtend to be low energy
AO’s of similar energy tend to mix strongly
Good overlap leads to strong mixing
The presence of antibonding nodes makes for a high-energyMO
5.03 Lecture 4 Electron Deficient Molecules
![Page 43: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/43.jpg)
Why is Borane Electron-Deficient?
How to Interpret the MO energiesRemember what you know about AO energies
the Valence Orbital Ionization Energy (VOIE) for a hydrogen1s orbital is 13.6 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2sorbital is 14.0 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2porbital is 8.3 eV
MOs constructed from low-energy (electronegative) AOs willtend to be low energy
AO’s of similar energy tend to mix strongly
Good overlap leads to strong mixing
The presence of antibonding nodes makes for a high-energyMO
5.03 Lecture 4 Electron Deficient Molecules
![Page 44: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/44.jpg)
Why is Borane Electron-Deficient?
How to Interpret the MO energiesRemember what you know about AO energies
the Valence Orbital Ionization Energy (VOIE) for a hydrogen1s orbital is 13.6 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2sorbital is 14.0 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2porbital is 8.3 eV
MOs constructed from low-energy (electronegative) AOs willtend to be low energy
AO’s of similar energy tend to mix strongly
Good overlap leads to strong mixing
The presence of antibonding nodes makes for a high-energyMO
5.03 Lecture 4 Electron Deficient Molecules
![Page 45: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/45.jpg)
Why is Borane Electron-Deficient?
How to Interpret the MO energiesRemember what you know about AO energies
the Valence Orbital Ionization Energy (VOIE) for a hydrogen1s orbital is 13.6 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2sorbital is 14.0 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2porbital is 8.3 eV
MOs constructed from low-energy (electronegative) AOs willtend to be low energy
AO’s of similar energy tend to mix strongly
Good overlap leads to strong mixing
The presence of antibonding nodes makes for a high-energyMO
5.03 Lecture 4 Electron Deficient Molecules
![Page 46: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/46.jpg)
Why is Borane Electron-Deficient?
How to Interpret the MO energiesRemember what you know about AO energies
the Valence Orbital Ionization Energy (VOIE) for a hydrogen1s orbital is 13.6 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2sorbital is 14.0 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2porbital is 8.3 eV
MOs constructed from low-energy (electronegative) AOs willtend to be low energy
AO’s of similar energy tend to mix strongly
Good overlap leads to strong mixing
The presence of antibonding nodes makes for a high-energyMO
5.03 Lecture 4 Electron Deficient Molecules
![Page 47: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/47.jpg)
Why is Borane Electron-Deficient?
How to Interpret the MO energiesRemember what you know about AO energies
the Valence Orbital Ionization Energy (VOIE) for a hydrogen1s orbital is 13.6 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2sorbital is 14.0 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2porbital is 8.3 eV
MOs constructed from low-energy (electronegative) AOs willtend to be low energy
AO’s of similar energy tend to mix strongly
Good overlap leads to strong mixing
The presence of antibonding nodes makes for a high-energyMO
5.03 Lecture 4 Electron Deficient Molecules
![Page 48: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/48.jpg)
Why is Borane Electron-Deficient?
How to Interpret the MO energiesRemember what you know about AO energies
the Valence Orbital Ionization Energy (VOIE) for a hydrogen1s orbital is 13.6 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2sorbital is 14.0 eV
the Valence Orbital Ionization Energy (VOIE) for a boron 2porbital is 8.3 eV
MOs constructed from low-energy (electronegative) AOs willtend to be low energy
AO’s of similar energy tend to mix strongly
Good overlap leads to strong mixing
The presence of antibonding nodes makes for a high-energyMO
5.03 Lecture 4 Electron Deficient Molecules
![Page 49: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/49.jpg)
Why is Borane Electron-Deficient?
Inspect the Occupied MOs for DiboraneWhat would corresponding antibonding MOs look like?
Use the drop-down menu in the diborane applet to get accessto the MO isosurfaces
How would you determine the symmetry species of the other 8valence MOs?
Use symmetry-related pairs of boron atom AOs as bases forreducible representations
For example, the pair of boron 2pz orbitals give Γred = 2 2 00 0 0 2 2
Γred(boron 2pz) = Ag + B1u
And so on!
5.03 Lecture 4 Electron Deficient Molecules
![Page 50: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/50.jpg)
Why is Borane Electron-Deficient?
Inspect the Occupied MOs for DiboraneWhat would corresponding antibonding MOs look like?
Use the drop-down menu in the diborane applet to get accessto the MO isosurfaces
How would you determine the symmetry species of the other 8valence MOs?
Use symmetry-related pairs of boron atom AOs as bases forreducible representations
For example, the pair of boron 2pz orbitals give Γred = 2 2 00 0 0 2 2
Γred(boron 2pz) = Ag + B1u
And so on!
5.03 Lecture 4 Electron Deficient Molecules
![Page 51: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/51.jpg)
Why is Borane Electron-Deficient?
Inspect the Occupied MOs for DiboraneWhat would corresponding antibonding MOs look like?
Use the drop-down menu in the diborane applet to get accessto the MO isosurfaces
How would you determine the symmetry species of the other 8valence MOs?
Use symmetry-related pairs of boron atom AOs as bases forreducible representations
For example, the pair of boron 2pz orbitals give Γred = 2 2 00 0 0 2 2
Γred(boron 2pz) = Ag + B1u
And so on!
5.03 Lecture 4 Electron Deficient Molecules
![Page 52: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/52.jpg)
Why is Borane Electron-Deficient?
Inspect the Occupied MOs for DiboraneWhat would corresponding antibonding MOs look like?
Use the drop-down menu in the diborane applet to get accessto the MO isosurfaces
How would you determine the symmetry species of the other 8valence MOs?
Use symmetry-related pairs of boron atom AOs as bases forreducible representations
For example, the pair of boron 2pz orbitals give Γred = 2 2 00 0 0 2 2
Γred(boron 2pz) = Ag + B1u
And so on!
5.03 Lecture 4 Electron Deficient Molecules
![Page 53: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/53.jpg)
Why is Borane Electron-Deficient?
Inspect the Occupied MOs for DiboraneWhat would corresponding antibonding MOs look like?
Use the drop-down menu in the diborane applet to get accessto the MO isosurfaces
How would you determine the symmetry species of the other 8valence MOs?
Use symmetry-related pairs of boron atom AOs as bases forreducible representations
For example, the pair of boron 2pz orbitals give Γred = 2 2 00 0 0 2 2
Γred(boron 2pz) = Ag + B1u
And so on!
5.03 Lecture 4 Electron Deficient Molecules
![Page 54: The Electron Deficient Borane Molecule - MITweb.mit.edu/5.03/www/readings/ed_hypervalent/deficient_b2h6.pdf · Note that there is no central atom in this problem! This carries the](https://reader033.vdocuments.net/reader033/viewer/2022042008/5e70ecaa643bf725cd60d3b0/html5/thumbnails/54.jpg)
Why is Borane Electron-Deficient?
Inspect the Occupied MOs for DiboraneWhat would corresponding antibonding MOs look like?
Use the drop-down menu in the diborane applet to get accessto the MO isosurfaces
How would you determine the symmetry species of the other 8valence MOs?
Use symmetry-related pairs of boron atom AOs as bases forreducible representations
For example, the pair of boron 2pz orbitals give Γred = 2 2 00 0 0 2 2
Γred(boron 2pz) = Ag + B1u
And so on!
5.03 Lecture 4 Electron Deficient Molecules