QUANTITATIVE RELATIONSHIPS BETWEEN MOLECULAR STRUCTURE AND MELTING POINT OF SEVERAL ORGANIC COMPOUNDS
Quantitative Structure - Property Relationships (QSPR) analysis of the Melting Point (m.p) of 349 organic compounds using molecular descriptors based on linear regression have been done. The experiment m.p. values were collected from the CRC Hand Book of Chemistry and Physic 81th [1]. Molecular de...
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Universitas Gadjah Mada
2010-06-01
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| Series: | Indonesian Journal of Chemistry |
| Online Access: | https://jurnal.ugm.ac.id/ijc/article/view/21918 |
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doaj-5f77d0f2caf44d29a9c3b3d19cf9b2f32020-11-24T21:56:08ZengUniversitas Gadjah MadaIndonesian Journal of Chemistry1411-94202460-15782010-06-0122839010.22146/ijc.2191815016QUANTITATIVE RELATIONSHIPS BETWEEN MOLECULAR STRUCTURE AND MELTING POINT OF SEVERAL ORGANIC COMPOUNDSIqmal Tahir0Karna Wijaya1M Utoro Yahya2Muzakky Yapin3Austrian-Indonesian Centre for Computational Chemistry, Gadjah Mada University, YogyakartaAustrian-Indonesian Centre for Computational Chemistry, Gadjah Mada University, YogyakartaAustrian-Indonesian Centre for Computational Chemistry, Gadjah Mada University, YogyakartaAkademi Perawatan Darul ‘Ulum, JombangQuantitative Structure - Property Relationships (QSPR) analysis of the Melting Point (m.p) of 349 organic compounds using molecular descriptors based on linear regression have been done. The experiment m.p. values were collected from the CRC Hand Book of Chemistry and Physic 81th [1]. Molecular description of each compound was described in the form of the number of atoms and number of chemical bonding. This study was made in the form of normal melting point (in Kelvin unit) as the linear function of all molecular descriptor. The best equation model was determined by regression multilinear analysis and the result showed that the melting point is linearly correlated with: n(Csek alf), n(Cter alf), n(Csek sik), n(Cter sik), n(Csek arm), n(Cter arm), n(O), n(N), n(F), n(Cl), n(C-C sik), n(C=C arm), n(C1=C2), n(C2=C3), n(C-O), n(C-Br), n(C-I), n(N-H), n(Z), n(ortho), n(meta), n(para), (BM), n(C-H)2, n(H x BM) and n(Cprim x BM). The QSPR equation is significant at 95 % level and has statistical parameters: n = 349, r = 0.943, SD = 24.336 and Fexp = 99.326, respectively. Keywords: QSPR, melting pointhttps://jurnal.ugm.ac.id/ijc/article/view/21918 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Iqmal Tahir Karna Wijaya M Utoro Yahya Muzakky Yapin |
| spellingShingle |
Iqmal Tahir Karna Wijaya M Utoro Yahya Muzakky Yapin QUANTITATIVE RELATIONSHIPS BETWEEN MOLECULAR STRUCTURE AND MELTING POINT OF SEVERAL ORGANIC COMPOUNDS Indonesian Journal of Chemistry |
| author_facet |
Iqmal Tahir Karna Wijaya M Utoro Yahya Muzakky Yapin |
| author_sort |
Iqmal Tahir |
| title |
QUANTITATIVE RELATIONSHIPS BETWEEN MOLECULAR STRUCTURE AND MELTING POINT OF SEVERAL ORGANIC COMPOUNDS |
| title_short |
QUANTITATIVE RELATIONSHIPS BETWEEN MOLECULAR STRUCTURE AND MELTING POINT OF SEVERAL ORGANIC COMPOUNDS |
| title_full |
QUANTITATIVE RELATIONSHIPS BETWEEN MOLECULAR STRUCTURE AND MELTING POINT OF SEVERAL ORGANIC COMPOUNDS |
| title_fullStr |
QUANTITATIVE RELATIONSHIPS BETWEEN MOLECULAR STRUCTURE AND MELTING POINT OF SEVERAL ORGANIC COMPOUNDS |
| title_full_unstemmed |
QUANTITATIVE RELATIONSHIPS BETWEEN MOLECULAR STRUCTURE AND MELTING POINT OF SEVERAL ORGANIC COMPOUNDS |
| title_sort |
quantitative relationships between molecular structure and melting point of several organic compounds |
| publisher |
Universitas Gadjah Mada |
| series |
Indonesian Journal of Chemistry |
| issn |
1411-9420 2460-1578 |
| publishDate |
2010-06-01 |
| description |
Quantitative Structure - Property Relationships (QSPR) analysis of the Melting Point (m.p) of 349 organic compounds using molecular descriptors based on linear regression have been done. The experiment m.p. values were collected from the CRC Hand Book of Chemistry and Physic 81th [1]. Molecular description of each compound was described in the form of the number of atoms and number of chemical bonding. This study was made in the form of normal melting point (in Kelvin unit) as the linear function of all molecular descriptor. The best equation model was determined by regression multilinear analysis and the result showed that the melting point is linearly correlated with: n(Csek alf), n(Cter alf), n(Csek sik), n(Cter sik), n(Csek arm), n(Cter arm), n(O), n(N), n(F), n(Cl), n(C-C sik), n(C=C arm), n(C1=C2), n(C2=C3), n(C-O), n(C-Br), n(C-I), n(N-H), n(Z), n(ortho), n(meta), n(para), (BM), n(C-H)2, n(H x BM) and n(Cprim x BM). The QSPR equation is significant at 95 % level and has statistical parameters: n = 349, r = 0.943, SD = 24.336 and Fexp = 99.326, respectively.
Keywords: QSPR, melting point |
| url |
https://jurnal.ugm.ac.id/ijc/article/view/21918 |
| work_keys_str_mv |
AT iqmaltahir quantitativerelationshipsbetweenmolecularstructureandmeltingpointofseveralorganiccompounds AT karnawijaya quantitativerelationshipsbetweenmolecularstructureandmeltingpointofseveralorganiccompounds AT mutoroyahya quantitativerelationshipsbetweenmolecularstructureandmeltingpointofseveralorganiccompounds AT muzakkyyapin quantitativerelationshipsbetweenmolecularstructureandmeltingpointofseveralorganiccompounds |
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