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All results from a given calculation for Si2H6 (disilane)

using model chemistry: HF/6-311+G(3df,2p)

19 10 17 12 22

States and conformations

State Conformation minimum conformation conformer description state description
1 1 yes D3D 1A1g
Energy calculated at HF/6-311+G(3df,2p)
 hartrees
Energy at 0K-581.366576
Energy at 298.15K-581.372642
HF Energy-581.366576
Nuclear repulsion energy90.404934
The energy at 298.15K was derived from the energy at 0K and an integrated heat capacity that used the calculated vibrational frequencies.
Vibrational Frequencies calculated at HF/6-311+G(3df,2p)
Mode Number Symmetry Frequency
(cm-1)		 Scaled Frequency
(cm-1)		 IR Intensities
(km mol-1)		 Raman Act
4/u)		 Dep P Dep U
1 A1g 2313 2102 0.00      
2 A1g 1021 928 0.00      
3 A1g 441 401 0.00      
4 A1u 138 125 0.00      
5 A2u 2299 2089 163.78      
6 A2u 939 853 647.07      
7 Eg 2295 2085 0.00      
7 Eg 2295 2085 0.00      
8 Eg 1019 926 0.00      
8 Eg 1019 926 0.00      
9 Eg 689 626 0.00      
9 Eg 689 626 0.00      
10 Eu 2305 2094 288.59      
10 Eu 2305 2094 288.59      
11 Eu 1034 939 112.35      
11 Eu 1034 939 112.35      
12 Eu 402 365 27.94      
12 Eu 402 365 27.94      

Unscaled Zero Point Vibrational Energy (zpe) 11319.5 cm-1
Scaled (by 0.9086) Zero Point Vibrational Energy (zpe) 10284.9 cm-1
See section III.C.1 List or set vibrational scaling factors to change the scale factors used here.
See section III.C.2 Calculate a vibrational scaling factor for a given set of molecules to determine the least squares best scaling factor.
Rotational Constants (cm-1) from geometry optimized at HF/6-311+G(3df,2p)
ABC
1.45062 0.16626 0.16626

See section I.F.4 to change rotational constant units
Geometric Data calculated at HF/6-311+G(3df,2p)

Point Group is D3d

Cartesians (Å)
Atom x (Å) y (Å) z (Å)
Si1 0.000 0.000 1.182
Si2 0.000 0.000 -1.182
H3 0.000 1.386 1.696
H4 -1.201 -0.693 1.696
H5 1.201 -0.693 1.696
H6 0.000 -1.386 -1.696
H7 -1.201 0.693 -1.696
H8 1.201 0.693 -1.696

Atom - Atom Distances (Å)
  Si1 Si2 H3 H4 H5 H6 H7 H8
Si12.36431.47831.47831.47833.19423.19423.1942
Si22.36433.19423.19423.19421.47831.47831.4783
H31.47833.19422.40112.40114.38023.66343.6634
H41.47833.19422.40112.40113.66343.66344.3802
H51.47833.19422.40112.40113.66344.38023.6634
H63.19421.47834.38023.66343.66342.40112.4011
H73.19421.47833.66343.66344.38022.40112.4011
H83.19421.47833.66344.38023.66342.40112.4011

picture of disilane state 1 conformation 1
More geometry information
Calculated Bond Angles
atom1 atom2 atom3 angle atom1 atom2 atom3 angle
Si1 Si2 H6 110.320 Si1 Si2 H7 110.320
Si1 Si2 H8 110.320 Si2 Si1 H3 110.320
Si2 Si1 H4 110.320 Si2 Si1 H5 110.320
H3 Si1 H4 108.610 H3 Si1 H5 108.610
H4 Si1 H5 108.610 H6 Si2 H7 108.610
H6 Si2 H8 108.610 H7 Si2 H8 108.610
Electronic energy levels

Electronic state

Charges, Dipole, Quadrupole and Polarizability
Charges from optimized geometry at HF/6-311+G(3df,2p) Charges (e)
Number Element Mulliken CHELPG AIM ESP
1 Si 0.252      
2 Si 0.252      
3 H -0.084      
4 H -0.084      
5 H -0.084      
6 H -0.084      
7 H -0.084      
8 H -0.084      


Electric dipole moments
Electric dipole components in Debye
(What's a Debye? See section VII.A.3)
  x y z Total
  0.000 0.000 0.000 0.000
CHELPG        
AIM        
ESP        


Electric Quadrupole moment
Quadrupole components in D Å
Primitive
 xyz
x -31.749 0.000 0.000
y 0.000 -31.749 0.000
z 0.000 0.000 -32.752
Traceless
 xyz
x 0.502 0.000 0.000
y 0.000 0.502 0.000
z 0.000 0.000 -1.003
Polar
3z2-r2-2.006
x2-y20.000
xy0.000
xz0.000
yz0.000


Polarizabilities
Components of the polarizability tensor.
Units are Å3 (Angstrom cubed)
Change units.
  x y z
x 7.650 0.000 0.000
y 0.000 7.650 0.000
z 0.000 0.000 9.915


<r2> (average value of r2) Å2
<r2> 87.948
(<r2>)1/2 9.378