Research report: "To study the effect of substituents on the properties of aniline by the method of approximate quantum AM1" pps

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Research report: "To study the effect of substituents on the properties of aniline by the method of approximate quantum AM1" pps

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§¹i häc Vinh T¹p chÝ khoa häc, tËp XXXVI, sè 1A-2007 77 Studying substituent effects on the properties of aniline with approximate quantum chemistry method AM1 Truong Van Nam (a) , Nguyen Xuan Dung (a) Abstract. Substituents effects on the properties of aniline were studied by approximate quantum chemical methods using HyperChem software 7.52 (latest version). AM1 method has been used to optimize geometry and calculate some properties of molecules. The results show that substituents on the phenyl ring alter the bond length C-N(d(C-N)), charge on atom N of amino group (QN), dipole moment(µ) and the pKa of compounds. There is a good correlation between these properties and Hammett σ constants, which traditionally have been used to characterize quantitatively the substituent electronic effect, except for d(C-N), QN of meta substituted compounds. I. Introduction The influence of substituents on physical and chemical properties of compounds has attracted much interest in chemistry. Generally, substituents change reactivities, conformations, equilibrium relationships, spectra, and thermal properties of the substituted compounds. Aniline is an interesting object to study the influence of substituents. Aniline molecule was studied well [1-5]. On the basis of resonance theory, electron - withdrawing constituents, especially at the para position, should favor quinoid resonance structures, which are more planar than aniline itself, decreasing both negative charge on N atom and the C-N bond length. Conversely, electron-donating substituents should favor KekulÐ-type structures with more nearly tetrahedral conformations at the nitrogen atom and increase charge on N atom and d(C-N) bond length [6]. N H H X N H H X N H H X N H H X X N H H HyperChem is a sophisticated molecular modeling environment that is known for its quality, flexibility, and ease of use. It unites 3D visualization and animation with quantum chemical calculations, molecular mechanics, and dynamics [7]. ‘ NhËn bµi ngµy 07/8/2006. Söa ch÷a xong 05/10/2006. §¹i häc Vinh T¹p chÝ khoa häc, tËp XXXVI, sè 1A-2007 78 HyperChem Release 7.52 is a full 32-bit application, developed for the Windows 95, 98, NT, ME, 2000 and XP operating systems. HyperChem Release 7.5 incorporates even more powerful computational chemistry tools than ever before, as well as newly incorporated modules, additional basis sets, new drawing capabilities and more. In this article, we used HyperChem software 7.52 to study the influence of substituents on some properties of compounds. II. Methods Hammett constants for the substituents were taken from [8]. The pKa values for the aniline derivatives were taken from [9]. Quantum chemical calculations were performed using HyperChem 7.52. To optimize geometry of molecules, we used AM1 method. Statistical analyses were done by EXCEL program. III. Results and discussion To simplify the analysis of substituent effects, we restricted our attention to four representative properties: the C-N bond length (d(C-N)), charge on atom N (Q N ), dipole moment(µ) and the acid dissociation constant (pKa). The results of geometry optimization of aniline by AM1 method are shown in the Table 1. The obtained values are reasonable close to the experimentally observed ones [10] but for <HNH bond angle. Therefore, we used this method to optimize aniline derivatives. Table 1. Some properties of aniline optimized by AM1 method. C-N C-Ctb N-H <HNH AM1 experimental value AM1 experimental value AM1 experimental value AM1 experimental value 1.400 1.400 1.395 1.392 0.988 0.998 119.9 113.9 Substituent effects on properties of aniline derivatives were examined by AM1 method. Calculated results for d(C-N), Q N and µ of its meta - and para- substituted derivatives are shown in table 2. Table 2. Calculated properties, Hammett constants and experimental pKa value for aniline derivatives. Order substituents d(C-N) (A 0 ) Q N µ σ pKa 1 H- 1.3989 -0.410 1.584 0.00 4.58 2 m-amino 1.4000 -0.407 1.528 -0.16 4.88 3 m-bromo 1.3945 -0.398 2.717 0.39 3.51 4 m-chloro 1.3939 -0.398 2.603 0.37 3.34 5 m-cyano 1.3937 -0.398 4.438 0.56 2.76 6 m-fluoro 1.3941 -0.399 2.825 0.34 3.59 7 m-hydroxy 1.3950 -0.400 1.347 0.12 4.17 §¹i häc Vinh T¹p chÝ khoa häc, tËp XXXVI, sè 1A-2007 79 8 m-methoxy 1.3971 -0.398 2.342 0.12 4.20 9 m-methyl 1.3990 -0.402 1.416 -0.07 4.69 10 m-nitro 1.3932 -0.398 6.303 0.71 2.50 11 p-amino 1.4102 -0.422 0.000 -0.66 6.08 12 p-bromo 1.3947 -0.404 3.304 0.23 3.91 13 p-chloro 1.3956 -0.407 3.086 0.23 3.98 14 p-cyano 1.3832 -0.398 5.446 0.66 1.74 15 p-fluoro 1.402 -0.409 3.285 0.06 4.65 16 p-hydroxy 1.4083 -0.415 2.354 -0.37 5.50 17 p-methoxy 1.4075 -0.410 1.879 -0.27 5.29 18 p-methyl 1.4017 -0.412 1.432 -0.17 5.12 19 p-nitro 1.3783 -0.386 7.640 0.78 1.02 The variations observed for the bond length d(C-N) upon substitution are seen to be relatively small. Electron-donating substituents tend to slightly increase d(C-N), whereas electron-withdrawing substituents slightly decrease this bond length. As expected, meta substituents exert a smaller influence than do para substituents, although, with the exception of p-cyano, p-nitro groups. A fair correlation between d(C-N) and the Hammett σ values of the substituents is found : d(C-N) = -0.0071σ + 1.3972 ; R 2 = 0.6225(meta substituents); d(C-N) = -0.0229σ + 1.3992; R 2 = 0.9454 (para substituents); R=the correlation coefficient. This is illustrated in Figure 1. m-: d(C-N) = -0.0071 σ + 1.3972 R 2 = 0.6225 p-: d(C-N) = -0.0229 σ + 1.3992 R 2 = 0.9454 1.3750 1.3800 1.3850 1.3900 1.3950 1.4000 1.4050 1.4100 1.4150 1.4200 -1 -0.5 0 0.5 1 σ σσ σ d(C-N) m- p- Fugure 1. Correlation of the bond length d(C-N) with the Hammett σ constants of the substituents. The para substituents show a much better correlation with d(C-N) (R 2 = 0.9454) than do the meta substituents (R 2 =0.6225). The para substituents have a greater effect on the C-N bond length (angle factor =-0.0229) than do the meta substituents( angle factor =-0.0071). The correlation between Q N and Hammett constants was also examined : Q N = 0.0109σ - 0.4034 ; R 2 = 0.5007 (meta substituents); Q N = 0.0208σ - 0.4081 ; R 2 = 0.9057 ( para substituents). §¹i häc Vinh T¹p chÝ khoa häc, tËp XXXVI, sè 1A-2007 80 The results show that electron-donating substituents increase nagative charge on N meanwhile electron-withdrawing substituents have opposite effect. However, para-subtituted compounds are much better fit(R 2 = 0.9057) than meta- substituted compounds (R 2 = 0.5007). p-: QN = 0.0208 σ - 0.4081 R 2 = 0.9057 m-: QN= 0.0109 σ - 0.4034 R 2 = 0.5007 -0.430 -0.420 -0.410 -0.400 -0.390 -0.380 -1 -0.5 0 0.5 1 σ σσ σ Q N m- p- Fugure 2. Correlation of Q N with the Hammett σ constants of the substituents. According to the table 2, electron-donating substituents decrease the dipole moment of compounds and electron-withdrawing substituents have opposite results. The para substituents show better correlation with µ (R 2 =0.8552) than do the meta substituents (R 2 =0.8108). The meta substituents is more effective than the para ones because angle factor of m - line is greater than angle factor of p-line. µ = 5.0230 σ + 1.5148 ; R 2 = 0.8108 (meta substituents); µ = 4.5064 σ + 2.7802 ; R 2 = 0.8552 (para substituents). m-: µ = 5.023 σ + 1.5148 R 2 = 0.8108 p-: µ = 4.5064 σ + 2.7802 R 2 = 0.8552 -1 0 1 2 3 4 5 6 7 8 -0.8 -0.6 -0.4 -0.2 0 0.2 0.4 0.6 0.8 σ σσ σ µ µ µ µ p- m- Figure 3. Correlation of the dipole moment µ with the Hammett σ constants of the substituents. It is evident from the table II that electron-donating substituents on the phenyl ring increase the pKa of aniline’s amino group, and electron-withdrawing substituents decrease the pKa. Hammett σ constants were initially developed to §¹i häc Vinh T¹p chÝ khoa häc, tËp XXXVI, sè 1A-2007 81 describe the electronic influences of substituents on chemical reactions and equilibria. Accordingly, it is reasonable to expect that they might also provide a reliable measure of the substituent’s effects on the pKa of the amino moiety, and this is indeed the case: pKa = -2.8437σ + 4.4898 ; R 2 = 0.9892 (meta substituents); pKa = -3.5197σ + 4.335 ; R 2 = 0.9403 (para substituents). In this case, the meta derivatives are better fit (R 2 = 0.9892) than the para derivatives (R 2 =0.9403). m- :pKa = -2.8437 σ + 4.4898 R 2 = 0.9892 p-: pKa = -3.5197 σ + 4.335 R 2 = 0.9403 -1 1 3 5 7 9 -0.8 -0.6 -0.4 -0.2 0 0.2 0.4 0.6 0.8 1 σ σσ σ pKa m- p- Figure 4. Correlation of the pKa value with the Hammett σ constants of the substituents. Table 3 lists correlation coefficients between Hammett σ constants and bond length C-N, negative charge on atom N, dipole moment and the pKa of compounds. Table 3. Correlation coefficients among the properties studied. meta substituents para substituents d(C-N) 0.6225 0.9454 Q N 0.5007 0.9057 µ 0.8108 0.8552 pKa 0.9892 0.9403 It is apparent from the information in the table 3 that for d(C-N), Q N and µ, para substituents provide better correlation than meta substituents, and for pKa, it shows contrary results. IV. Conclusion The semi-empirical AM1 level calculation performs well in terms of its geometrical description of aniline as indicated by the close agreement with the experimental bond lengths. As one would anticipate from general principles, electron-withdrawing substituents enhance planarity of the aniline framework, thereby shortening d(C- N). The accompanying loss of electron density from the amino nitrogen atom decreases the pKa of the amino group. Conversely, electron-donating substituents favor pyramidal sp 3 hybridization at the amino nitrogen, leading to a longer C-N Đại học Vinh Tạp chí khoa học, tập XXXVI, số 1A-2007 82 bond length. Also, the pKa of the amino nitrogen is increased by electron-donating substituents. The variations of the three properties are closely tied together. Hammett constants which used as regression indicator to investigate the change of properties yield rather good correlations for these properties except for d(C-N), Q N of meta derivatives. The correlation of pKa with is best fit. References [1] Lister, D. G.; Tyler, J. K. Chem Commun, (1966), 152153. [2] Lister, D. G.; Tyler, J. K.;Hỉg, J. H.;Larsen, N. W. J Molec. Struct, 23 (1974), 253264. [3] Brand, J. C. D.; Williams, D. R.; Cook, T. J. J Molec. Spectrosc, 20(1966), 193 195. [4] Brand, J. C. D.; Jones, V. T.; Forrest, B. J.; Pirkle, R. J. J Molec. Spectrosc, 39(1971), 352356. [5] Quack, M.; Stockburger, M. J Molec Spectrosc, 43(1972) , 87-116. [6] Kenvin C. Gross, Paul G. Seybold, International Journal of Quantum Chemistry, 80((2000),1107-1115. [7] http://www.hyperchem.com [8] Hansch, C.; Leo, A.; Taft, R. W. Chem Rev, 91(1991), 165195. [9] Albert, A.; Serjeant, E. P. Ionization Constants of Acids and Bases; Methuen: London, 1962. [10] David R.Lide, CRC Handbook of Chemistry and Physics, 75 ed, CRC press, London (1994), 9-50. Tóm tắt Nghiên cứu ảnh hởng của nhóm thế lên tính chất của anilin bằng phơng pháp lợng tử gần đúng AM1 ảnh hởng của nhóm thế lên tính chất của aniline đợc nghiên cứu bằng phơng pháp tính hoá lợng tử gần đúng sử dụng phần mềm HyperChem phiên bản 7.52. Phơng pháp AM1 đợc dùng để tối u phân tử và tính các tham số cấu trúc. Kết quả nghiên cứu cho thấy nhóm thế làm thay đổi độ dài liên kết C-N, điện tích trên nguyên tử N, mômen lỡng cực và giá trị pKa của các dẫn xuất thế. Hằng số hammett đặc trng định lợng cho ảnh hởng của nhóm thế có sự tơng quan khá tốt đối với các thuộc tính này ngoại trừ độ dài liên kết C-N và điện tích trên nguyên tử N của dẫn xuất thế meta. (a) Khoa hoá học, trờng đại học Vinh . Correlation of the dipole moment µ with the Hammett σ constants of the substituents. It is evident from the table II that electron-donating substituents on the phenyl ring increase the pKa of aniline s. Correlation of Q N with the Hammett σ constants of the substituents. According to the table 2, electron-donating substituents decrease the dipole moment of compounds and electron-withdrawing substituents. 77 Studying substituent effects on the properties of aniline with approximate quantum chemistry method AM1 Truong Van Nam (a) , Nguyen Xuan Dung (a) Abstract. Substituents effects on the

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