Optimization of parameters for semiempirical methods II. Applications

Abstract

Abstract MNDO/AM1‐type parameters for twelve elements have been optimized using a newly developed method for optimizing parameters for semiempirical methods. With the new method, MNDO‐PM3, the average difference between the predicted heats of formation and experimental values for 657 compounds is 7.8 kcal/mol, and for 106 hypervalent compounds, 13.6 kcal/mol. For MNDO the equivalent differences are 13.9 and 75.8 kcal/mol, while those for AM1, in which MNDO parameters are used for aluminum, phosphorus, and sulfur, are 12.7 and 83.1 kcal/mol, respectively. Average errors for ionization potentials, bond angles, and dipole moments are intermediate between those for MNDO and AM1, while errors in bond lengths are slightly reduced.

References

Page 1

	Year	Citations
Development and use of quantum mechanical molecular models. 76. AM1: a new general purpose quantum mechanical molecular model Michael J. S. Dewar, Eve G. Zoebisch, Eamonn F. Healy, Journal of the American Chemical Society EngineeringAltmetric Attention ScoreMolecular BiologyComputational ChemistryChemistry	1985	13.1K
Ground states of molecules. 38. The MNDO method. Approximations and parameters Michael J. S. Dewar, Walter Thiel Journal of the American Chemical Society Mndo MethodEngineeringChemical AnalysisAltmetric Attention ScoreOrganic Chemistry	1977	5.1K
A Rapidly Convergent Descent Method for Minimization R. Fletcher, M. J. D. Powell The Computer Journal Numerical AnalysisMathematical ProgrammingSeveral VariablesLocal MinimumEngineering	1963	4.6K
A new approach to variable metric algorithms R. Fletcher The Computer Journal Mathematical ProgrammingNumerical AnalysisQuadratic TerminationLarge-scale Global OptimizationEngineering	1970	4K
Conditioning of quasi-Newton methods for function minimization David F. Shanno Mathematics of Computation Mathematical ProgrammingNumerical AnalysisEngineeringContinuous OptimizationFunction Minimization	1970	3.6K
A family of variable-metric methods derived by variational means Donald Goldfarb Mathematics of Computation Mathematical ProgrammingNumerical AnalysisRank-one MethodsEngineeringVariational Analysis	1970	3.1K
A Fundamental Equation of State for Heavy Water Philip G. Hill, R. D. Chris MacMillan, V. Lee Journal of Physical and Chemical Reference Data EngineeringExperimental ThermodynamicsChemistryThermodynamic ModellingFluid Properties	1982	1.5K
Ground states of molecules. 39. MNDO results for molecules containing hydrogen, carbon, nitrogen, and oxygen Michael J. S. Dewar, Walter Thiel Journal of the American Chemical Society EngineeringChemical AnalysisAltmetric Attention ScoreBibliometricsOrganic Chemistry	1977	1.3K
The Convergence of a Class of Double-rank Minimization Algorithms C. G. Broyden IMA Journal of Applied Mathematics Mathematical ProgrammingNumerical AnalysisConic OptimizationDouble-rank Minimization AlgorithmsNew Minimization Algorithm	1970	1.2K
The NBS tables of chemical thermodynamic properties C. M. Churney Journal of Physical and Chemical Reference Data Thermodynamic ModellingNbs TablesEngineeringEntropyNatural Sciences	1982	987

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