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Comparison of experiment and theory for rCS

18 10 23 14 56
Species with coordinate rCS
Species Name
CH3CSNH2 Ethanethioamide
CH3SOCH3 Dimethyl sulfoxide
C2H6O2S Dimethyl sulfone
CH3SH Methanethiol
CH3CH2SH ethanethiol
CS2 Carbon disulfide
CH3SCH3 Dimethyl sulfide
CH3CHSHCH3 2-Propanethiol
C3H7SH 1-Propanethiol
C4H8S Thiophene, tetrahydro-
C4H4S Thiophene
CHSNH2 thioformamide
C3H6S Thietane
C2H2N2S 1,3,4-Thiadiazole
C3H6S3 1,3,5-Trithiane
C2H4S Thiirane
OCS Carbonyl sulfide
CH2SHCH2SH 1,2-Ethanedithiol
C5H6S Thiophene, 3-methyl-
CH3SCH2CH3 Ethane, (methylthio)-
CH3SSCH3 Disulfide, dimethyl
H2CS Thioformaldehyde
C5H10S 2H-Thiopyran, tetrahydro-
C4H6S Thiophene, 2,5-dihydro-
CS carbon monosulfide
HNCS Isothiocyanic acid
SCSe Carbon sulfide selenide
CH3SSH Hydrogen methyl disulfide
CH3CHS Thioacetaldehyde
CH3S thiomethoxy
CH2CS Thioketene
HCS Thioformyl radical
The small prefix is the number of bonds with completed calculations.
Click on an entry for a histogram of the difference distribution.
rms differences (calculated - experiment) in Å
Methods with predefined basis sets
semi-empirical AM1 17 0.085
PM3 18 0.048
PM6 30 0.043
composite G2 17 0.048
G3 17 0.048
G3B3 29 0.043
G3MP2 7 0.007
G4 30 0.014
CBS-Q 18 0.047
rms differences (calculated - experiment) in Å
Methods with standard basis sets
STO-3G 3-21G 3-21G* 6-31G 6-31G* 6-31G** 6-31+G** 6-311G* 6-311G** 6-31G(2df,p) 6-311+G(3df,2p) TZVP cc-pVDZ cc-pVTZ cc-pVQZ aug-cc-pVDZ aug-cc-pVTZ aug-cc-pVQZ cc-pV(D+d)Z cc-pV(T+d)Z aug-cc-pV(T+d)Z cc-pCVDZ cc-pCVTZ aug-cc-pCVTZ Sadlej_pVTZ daug-cc-pVDZ daug-cc-pVTZ
hartree fock HF 29 0.024 30 0.070 30 0.012 29 0.062 31 0.017 31 0.011 16 0.012 31 0.012 30 0.011 31 0.011 29 0.012 31 0.038 31 0.012 30 0.011 14 0.015 31 0.013 30 0.011 13 0.015 2 0.012 16 0.012 4 0.011 3 0.013 5 0.014   1 0.010 13 0.010 30 0.058
ROHF   1 0.081 2 0.017 1 0.073 1 0.007 2 0.014 2 0.014 2 0.015 1 0.009   1 0.001 1 0.015 2 0.020 2 0.013 1 0.002 1 0.016 1 0.006 1 0.002   1 0.021     1 0.021     1 0.016 1 0.006
density functional LSDA 15 0.058 17 0.065 15 0.008 15 0.062 17 0.008 18 0.006 18 0.006 17 0.008 18 0.005 18 0.009 1 0.019 3 0.007 18 0.009 18 0.009 1 0.004 17 0.009 5 0.009 1 0.004 2 0.014 10 0.017 4 0.014 1 0.011 4 0.022        
BLYP 28 0.066 31 0.112 30 0.046 30 0.107 32 0.079 31 0.043 31 0.043 29 0.042 30 0.042 30 0.035 16 0.027 17 0.044 30 0.046 29 0.036   29 0.048 17 0.034   2 0.023 10 0.026 4 0.018 1 0.038 4 0.028     13 0.044 13 0.032
B1B95 28 0.044 15 0.044 27 0.009 28 0.062 28 0.007 28 0.008 30 0.008 28 0.007 28 0.007 28 0.007 15 0.009 17 0.008 28 0.010 28 0.007 1 0.011 27 0.010 21 0.006   2 0.011 11 0.011 4 0.010 3 0.007 5 0.012     9 0.009 12 0.007
B3LYP 30 0.052 30 0.088 31 0.025 31 0.083 31 0.023 31 0.022 30 0.023 31 0.021 18 0.019 31 0.016 28 0.011 31 0.042 31 0.025 30 0.016 13 0.010 28 0.026 30 0.016 12 0.008 2 0.006 16 0.008 4 0.004 3 0.010 5 0.009   1 0.021 13 0.024 13 0.014
B3LYPultrafine   16 0.085     28 0.022 17 0.021 22 0.022 17 0.020   16 0.014 16 0.009 17 0.023 17 0.025 25 0.016   17 0.026 31 0.015   1 0.009 10 0.008 4 0.004 1 0.017 4 0.010     13 0.024 13 0.014
B3PW91 18 0.058 29 0.075 30 0.015 30 0.070 30 0.180 30 0.180 28 0.012 30 0.011 18 0.011 31 0.008 16 0.006 17 0.015 30 0.015 28 0.008   29 0.017 19 0.007   2 0.003 10 0.006 4 0.005 1 0.004 4 0.008     13 0.015 13 0.007
mPW1PW91 19 0.051 30 0.071 21 0.011 30 0.066 31 0.010 30 0.009 31 0.009 31 0.008 30 0.009 30 0.007 16 0.008 17 0.011 30 0.012 27 0.007   29 0.013 17 0.006   2 0.007 10 0.008 4 0.008 1 0.000 4 0.011     13 0.012 13 0.006
M06-2X 16 0.044 16 0.064 31 0.062 16 0.058 30 0.038 17 0.009 17 0.009 17 0.008 17 0.008 19 0.006 26 0.063 17 0.010 16 0.012 19 0.006   17 0.012 19 0.006   2 0.006 10 0.008 4 0.007 1 0.004 4 0.010     13 0.011 13 0.006
PBEPBE 18 0.077 30 0.091 18 0.026 18 0.083 30 0.025 30 0.025 30 0.025 30 0.023 30 0.024 30 0.018 29 0.013 17 0.027 28 0.029 30 0.019 1 0.007 17 0.029 25 0.019 1 0.007 2 0.008 12 0.011 4 0.007 2 0.013 5 0.009   1 0.020 13 0.027 13 0.017
PBEPBEultrafine   17 0.090     30 0.025 17 0.025 17 0.025 17 0.023   16 0.018 16 0.012 17 0.027 17 0.029 17 0.019   17 0.029 17 0.018   1 0.006 10 0.011 4 0.007 1 0.015 4 0.010     13 0.027 13 0.017
PBE1PBE 17 0.052 15 0.008 16 0.009 17 0.062 31 0.009 17 0.009 17 0.008 17 0.008 17 0.008 17 0.006 16 0.008 17 0.010 17 0.012 17 0.006   17 0.012 17 0.006   1 0.010 9 0.009 4 0.008 1 0.002 4 0.012     13 0.011 13 0.006
HSEh1PBE 17 0.053 30 0.117 16 0.009 17 0.063 30 0.038 17 0.009 30 0.081 17 0.008 17 0.008 17 0.006 16 0.008 17 0.011 17 0.012 31 0.098   17 0.013 16 0.006   2 0.007 10 0.009 4 0.007 1 0.001 4 0.011     13 0.012 13 0.005
TPSSh 17 0.070 17 0.085 17 0.021 17 0.078 31 0.073 17 0.019 31 0.072 17 0.018 17 0.018 32 0.060 16 0.007 17 0.022 17 0.023 31 0.071 11 0.009 17 0.023 17 0.013 11 0.009 1 0.005 10 0.007 4 0.003 1 0.013 4 0.007     13 0.022 13 0.012
wB97X-D 17 0.050 16 0.068 32 0.074 16 0.062 32 0.073 17 0.010 32 0.072 17 0.009 32 0.072 17 0.006 16 0.007 32 0.072 32 0.073 32 0.071 10 0.006 17 0.015 32 0.071 9 0.006 1 0.005 10 0.007 4 0.007 1 0.003 4 0.010     13 0.013 13 0.006
B97D3 17 0.084 32 0.111 17 0.027 17 0.090 32 0.077 17 0.026 32 0.077 17 0.024 32 0.076 17 0.019 32 0.073 32 0.065 17 0.029 32 0.074 10 0.015 17 0.030 32 0.061 8 0.016 1 0.011 10 0.011 4 0.006 1 0.020 4 0.012     13 0.028 26 0.067
STO-3G 3-21G 3-21G* 6-31G 6-31G* 6-31G** 6-31+G** 6-311G* 6-311G** 6-31G(2df,p) 6-311+G(3df,2p) TZVP cc-pVDZ cc-pVTZ cc-pVQZ aug-cc-pVDZ aug-cc-pVTZ aug-cc-pVQZ cc-pV(D+d)Z cc-pV(T+d)Z aug-cc-pV(T+d)Z cc-pCVDZ cc-pCVTZ aug-cc-pCVTZ Sadlej_pVTZ daug-cc-pVDZ daug-cc-pVTZ
Moller Plesset perturbation MP2 18 0.041 31 0.093 31 0.020 30 0.088 32 0.069 31 0.008 31 0.015 32 0.069 30 0.008 24 0.006 16 0.007 31 0.038 31 0.017 29 0.008 12 0.006 29 0.023 23 0.007 12 0.006 2 0.005 17 0.006 4 0.004 3 0.008 5 0.008   1 0.018 13 0.022 13 0.007
MP2=FULL 18 0.040 29 0.092 22 0.018 22 0.085 31 0.038 30 0.008 30 0.008 30 0.008 18 0.007 20 0.007 16 0.010 17 0.011 29 0.016 23 0.006 12 0.009 18 0.020 20 0.007 11 0.010 2 0.005 17 0.011 4 0.008 3 0.006 5 0.012   1 0.017 13 0.020 13 0.007
ROMP2                                       1 0.001 1 0.002            
MP3         29 0.009   30 0.072       14 0.007 16 0.011 16 0.016 16 0.006         2 0.002 10 0.005 4 0.003 1 0.010 4 0.007     11 0.021 9 0.006
MP3=FULL   15 0.083 15 0.015 16 0.080 30 0.072 16 0.006 29 0.073 16 0.006 16 0.006 16 0.007 14 0.009 16 0.011 16 0.015 16 0.006   16 0.020 14 0.006   1 0.000 10 0.010 4 0.007 1 0.008 4 0.010     11 0.018 10 0.007
MP4   17 0.104 1 0.046 1 0.141 20 0.019 1 0.037 1 0.034 3 0.021 16 0.017   11 0.012 14 0.023 14 0.031 13 0.018   14 0.034 11 0.017   2 0.013 9 0.009 4 0.011 1 0.015 4 0.008     8 0.036 8 0.018
MP4=FULL   12 0.102     15 0.016       14 0.015   11 0.010   13 0.027 14 0.011   14 0.032 11 0.012   1 0.004 7 0.007 4 0.007 1 0.013 3 0.008     9 0.032 8 0.013
B2PLYP 17 0.060 17 0.086 17 0.019 17 0.081 30 0.040 17 0.015 17 0.015 17 0.014 17 0.014 19 0.009 16 0.005 17 0.019 17 0.021 31 0.071   17 0.024 19 0.010   1 0.003 10 0.005 4 0.003 1 0.011 4 0.006     13 0.023 13 0.010
B2PLYP=FULL 17 0.060 17 0.086 17 0.019 17 0.081 17 0.015 17 0.014 17 0.014 17 0.014 17 0.013 17 0.008 16 0.005 17 0.019 17 0.021 17 0.009   17 0.023 17 0.009   1 0.002 10 0.004 4 0.002 1 0.011 4 0.006     13 0.022 13 0.008
B2PLYP=FULLultrafine 17 0.060 17 0.086 17 0.019 17 0.081 31 0.062 17 0.014 17 0.014 17 0.014 17 0.013 17 0.008 16 0.005 17 0.019 26 0.068 26 0.063   17 0.023 26 0.063   1 0.002 10 0.004 7 0.004 1 0.011 4 0.006 1 0.002   13 0.022 13 0.008
Configuration interaction CID   20 0.077 20 0.012 21 0.074 29 0.007 3 0.005 1 0.007 21 0.006     14 0.013   16 0.010 15 0.008         1 0.003 10 0.013 4 0.009 1 0.004 4 0.014     11 0.012 9 0.009
CISD   20 0.080 19 0.013 20 0.077 29 0.007 4 0.002 1 0.002 19 0.005     14 0.012   16 0.012 15 0.007         1 0.002 10 0.012 4 0.007 1 0.006 4 0.013     11 0.014 9 0.008
STO-3G 3-21G 3-21G* 6-31G 6-31G* 6-31G** 6-31+G** 6-311G* 6-311G** 6-31G(2df,p) 6-311+G(3df,2p) TZVP cc-pVDZ cc-pVTZ cc-pVQZ aug-cc-pVDZ aug-cc-pVTZ aug-cc-pVQZ cc-pV(D+d)Z cc-pV(T+d)Z aug-cc-pV(T+d)Z cc-pCVDZ cc-pCVTZ aug-cc-pCVTZ Sadlej_pVTZ daug-cc-pVDZ daug-cc-pVTZ
Quadratic configuration interaction QCISD   26 0.100 21 0.023 20 0.094 27 0.013 21 0.012 22 0.012 28 0.012 25 0.011 19 0.008 14 0.006 16 0.017 21 0.023 19 0.008   16 0.027 17 0.008   2 0.008 12 0.005 4 0.006 1 0.012 4 0.006     11 0.026 8 0.008
QCISD(T)   1 0.086 1 0.030 1 0.090 17 0.016 1 0.021 1 0.018 16 0.015     12 0.009 14 0.020 16 0.028 15 0.013   15 0.033 14 0.014   1 0.008 8 0.008 4 0.010 1 0.016 4 0.007     10 0.031 8 0.013
QCISD(T)=FULL         14 0.014   13 0.013       12 0.007   15 0.025 12 0.008 8 0.004 13 0.030 12 0.009 8 0.005 1 0.006 8 0.006 4 0.005 1 0.014 4 0.007     10 0.029 8 0.008
QCISD(TQ)         3 0.014   3 0.013       1 0.009   3 0.024 3 0.011 1 0.008 3 0.030 2 0.013                 1 0.032 1 0.014
QCISD(TQ)=FULL         3 0.012   3 0.011           3 0.023 2 0.008   3 0.028 1 0.007                 1 0.029  
Coupled Cluster CCD   19 0.086 19 0.018 20 0.083 29 0.039 20 0.008 20 0.007 21 0.007 17 0.006 17 0.006 14 0.007 16 0.012 20 0.017 17 0.005   17 0.021 16 0.005   2 0.002 11 0.006 4 0.004 3 0.006 5 0.007     11 0.020 8 0.005
CCSD   1 0.067 1 0.016 1 0.072 19 0.010 14 0.010 14 0.009 15 0.009 13 0.008 18 0.007 14 0.006 16 0.015 17 0.020 18 0.007 9 0.004 16 0.025 14 0.007 6 0.004 1 0.004 10 0.005 4 0.004 1 0.012 4 0.006     11 0.024 8 0.007
CCSD=FULL         18 0.009         18 0.006 12 0.008 16 0.014 16 0.019 17 0.006 9 0.008 14 0.022 15 0.006 6 0.006 1 0.001 10 0.008 4 0.006 1 0.009 4 0.009     11 0.022 9 0.006
CCSD(T)   3 0.075 1 0.027 1 0.086 16 0.015 16 0.015 14 0.014 16 0.014 15 0.014 14 0.011 13 0.008 15 0.020 17 0.026 16 0.012 9 0.006 14 0.032 13 0.013 8 0.007 2 0.013 11 0.008 4 0.009 3 0.015 5 0.007     9 0.031 8 0.012
CCSD(T)=FULL         15 0.013           11 0.006 15 0.020 13 0.024 12 0.007 9 0.004 13 0.029 11 0.007 7 0.004 2 0.011 9 0.006 5 0.004 3 0.013 5 0.006     9 0.029 7 0.008
STO-3G 3-21G 3-21G* 6-31G 6-31G* 6-31G** 6-31+G** 6-311G* 6-311G** 6-31G(2df,p) 6-311+G(3df,2p) TZVP cc-pVDZ cc-pVTZ cc-pVQZ aug-cc-pVDZ aug-cc-pVTZ aug-cc-pVQZ cc-pV(D+d)Z cc-pV(T+d)Z aug-cc-pV(T+d)Z cc-pCVDZ cc-pCVTZ aug-cc-pCVTZ Sadlej_pVTZ daug-cc-pVDZ daug-cc-pVTZ
rms differences (calculated - experiment) in Å
Methods with effective core potentials (select basis sets)
CEP-31G CEP-31G* CEP-121G CEP-121G* LANL2DZ SDD cc-pVTZ-PP aug-cc-pVTZ-PP Def2TZVPP
hartree fock HF 29 0.069 30 0.018 29 0.066 30 0.017 28 0.058 30 0.055     32 0.071
ROHF                 1 0.001
density functional LSDA                 1 0.019
BLYP                 16 0.026
B1B95 22 0.080 23 0.024             16 0.011
B3LYP 29 0.096 29 0.038 30 0.093 29 0.036 28 0.082 29 0.075     32 0.072
B3LYPultrafine                 16 0.009
B3PW91                 16 0.006
mPW1PW91                 16 0.008
M06-2X                 16 0.008
PBEPBE                 32 0.073
PBEPBEultrafine                 16 0.012
PBE1PBE                 16 0.008
HSEh1PBE                 16 0.008
TPSSh                 16 0.008
wB97X-D 16 0.077 16 0.028 16 0.073 16 0.024 17 0.062 16 0.056     16 0.007
B97D3                 16 0.012
Moller Plesset perturbation MP2 30 0.102 29 0.027 30 0.097 29 0.021 30 0.088 30 0.086     32 0.071
MP2=FULL                 16 0.008
MP3                 14 0.006
MP3=FULL                 14 0.008
MP4                 9 0.011
MP4=FULL                 11 0.010
B2PLYP                 16 0.005
B2PLYP=FULL                 16 0.005
B2PLYP=FULLultrafine                 16 0.005
Configuration interaction CID                 14 0.013
CISD                 14 0.012
Quadratic configuration interaction QCISD                 14 0.006
QCISD(T)                 11 0.007
QCISD(T)=FULL                 12 0.006
QCISD(TQ)                 1 0.008
Coupled Cluster CCD                 14 0.006
CCSD                 14 0.005
CCSD=FULL                 13 0.006
CCSD(T)                 12 0.008
CCSD(T)=FULL                 11 0.005
For descriptions of the methods (AM1, HF, MP2, ...) and basis sets (3-21G, 3-21G*, 6-31G, ...) see the glossary in section I.C. Predefined means the basis set used is determined by the method.