10.1021/ie801252j.s001
Lailong Mu
Lailong
Mu
Hongmei He
Hongmei
He
Weihua Yang
Weihua
Yang
Changjun Feng
Changjun
Feng
Variable Molecular Connectivity Indices for Predicting the Diamagnetic Susceptibilities of Organic Compounds
American Chemical Society
2009
literature methods
molar diamagnetic susceptibilities
AAD
subsets regression analysis method
4.37 cgs
results show
3.72 cgs
connectivity
adjacency matrix
compound
molar diamagnetic susceptibility
Diamagnetic Susceptibilities
Organic CompoundsFor
MLR model
optimization methods
correlation coefficient r
Variable Molecular Connectivity Indices
2009-04-15 00:00:00
Journal contribution
https://acs.figshare.com/articles/journal_contribution/Variable_Molecular_Connectivity_Indices_for_Predicting_the_Diamagnetic_Susceptibilities_of_Organic_Compounds/2863948
For predicting the molar diamagnetic susceptibilities of organic compounds, a variable molecular connectivity index <sup><i>m</i></sup><i>χ</i>′ and its converse index <sup><i>m</i></sup><i>χ</i>′′ based on the adjacency matrix of molecular graphs and the variable atomic valence connectivity index δ<sub><i>i</i></sub>′ were proposed. The optimal values of parameters <i>a</i>, <i>b</i>, and <i>y</i> included in definition of δ<sub><i>i</i></sub>′, <sup><i>m</i></sup><i>χ</i>′ and <sup><i>m</i></sup><i>χ</i>′′ can be found by optimization methods. When <i>a</i> = 1.10, <i>b</i> = 2.8, and <i>y</i> = 0.36, a good five-parameter model can be constructed from <sup><i>m</i></sup><i>χ</i>′ and <sup><i>m</i></sup><i>χ</i>′′ by using the best subsets regression analysis method for the molar diamagnetic susceptibilities of organic compounds. The correlation coefficient <i>r</i>, standard error <i>s</i>, and average absolute deviation (AAD) of the multivariate linear regression (MLR) model are 0.9930, 4.99, and 3.72 cgs, respectively, for the 720 organic compounds (training set). The AAD of predicted values of the molar diamagnetic susceptibility of another 361 organic compounds (test set) is 4.37 cgs for the MLR model. The results show that the current method is more effective than literature methods for estimating the molar diamagnetic susceptibility of an organic compound.