Quím. Nova
 2010
DOI: 10.1590/s0100-40422010000100033
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Comparação entre métodos compostos no cálculo de afinidades por próton e elétron em sistemas moleculares

José Carlos B. de Lima
1
,
Nelson H. Morgon
2

Abstract: . The CBS-4M, CBS-QB3, G2, G2(MP2), G3 and G3(MP2) model chemistry methods have been used to calculate proton and electron affinities for a set of molecular and atomic systems. Agreement with the experimental value for these electronic properties is quite good considering the uncertainty in the experimental data. A comparison among the six theories using statistical analysis (average value, standard deviation and root-mean-square) showed a better performance of CBS-QB3 to obtain these properties.Keywords: comp… Show more

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Cited by 3 publications
(9 citation statements)
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References 65 publications
(87 reference statements)
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“…4 Atualmente, existe uma grande variedade desses métodos sendo mais difundidos os métodos Gaussian-n 11-17 e os métodos do conjunto de base completo. [18][19][20] Desde o seu surgimento, devido aos resultados confiáveis para as quantidades termoquímicas e ao tempo computacional reduzido, o número de aplicações desses métodos cresceu rapidamente.…”
Section: Métodos Compostosunclassified
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Validação computacional de métodos compostos no estudo de propriedades moleculares

Heerdt1,
Morgon2
2011
Quím. Nova
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“…4 Atualmente, existe uma grande variedade desses métodos sendo mais difundidos os métodos Gaussian-n 11-17 e os métodos do conjunto de base completo. [18][19][20] Desde o seu surgimento, devido aos resultados confiáveis para as quantidades termoquímicas e ao tempo computacional reduzido, o número de aplicações desses métodos cresceu rapidamente.…”
Section: Métodos Compostosunclassified
“…3 Juntos, esses avanços, levaram a avaliações mais precisas de diversas propriedades moleculares, em especial relacionadas a grandezas termoquímicas. [4][5][6][7][8][9][10] Mesmo tendo em mãos métodos sofisticados e funções de base extensas para descrever qualquer sistema eletrônico, a realização prática de cálculos que envolvam um grande número de partículas ainda é uma tarefa dispendiosa computacionalmente. Algumas estratégias têm tido sucesso e tornado possível a abordagem precisa de sistemas químicos relativamente grandes.…”
Section: Introductionunclassified

Validação computacional de métodos compostos no estudo de propriedades moleculares

Heerdt1,
Morgon2
2011
Quím. Nova
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“…[1][2][3][4][5][6][7][8][9] However, practical calculations containing many particles become a task that requires a very high computational cost. 10 Some strategies have been successful, making it possible to study large systems, highlighting the composite methods [11][12][13][14][15][16][17][18][19] and the ONIOM (our own n-layered integrated molecular orbital and molecular mechanics) method.…”
Section: Introductionmentioning
confidence: 99%
“…20 Developed in the 1980s, the composite methods aim to extrapolate the electronic energies from a sequence of calculations, computationally inexpensive, to an electronic energy with a high level of correlation and large basis set. 2 In addition to the energy terms from the energy calculations, some empirical parameters can be added to correct deficiencies of the method, like additional correlation effects, relativistic effect, etc.The Gaussian-n theory, developed by Pople and co-workers, 13-17 exploits this idea to predict thermochemical data of molecules containing elements of the first three periods of the periodic table. The purpose of this theory is to obtain a general procedure that can reproduce experimental data for properties such as proton and electron affinities, ionization energy, enthalpy of formation, etc., being applicable to any molecular system unambiguously.…”
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confidence: 99%
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Theoretical study of thermochemical properties using composite methods adapted to ONIOM

Heerdt
1
,
Morgon
2
2012
J. Braz. Chem. Soc.
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Análise Gráfica Do Desempenho De Métodos Computacionais No Estudo De Propriedades Termoquímicas

Lima1,
Morgon2
2020
Quím. Nova
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