Volume 5, Issue 4
The Theoretical Research on the Chiral Transition of Ibuprofen Molecules under Isolated Conditions

Zuo-Cheng Wang, Feng-Ge Liu, Li-Ping Wang, Hua Tong, Tian-Rong Yu & Li-Rong Dong

J. At. Mol. Sci., 5 (2014), pp. 289-300.

Published online: 2014-05

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  • Abstract

In this article, we do a research on the chiral shift process of the isolated alpha alanine molecule using the basis set of 6-31+g(d,p), which is based on density functional theory B3LYP. Furthermore, the chiral transition path reaction potential energy surface of ibuprofen molecule is drawn by looking for the extreme value point structure including the transition state and intermediate. Finally, the geometry and electronic structure properties of extreme value point are also analyzed. The results show that there are two achieve reaction paths of ibuprofen from S-type to R-type. Path 1 consists of three transition states and two intermediate states. Path 2 includes four transition states and three intermediate states. On the reaction path, the greatest barrier which is from the transfer of hydrogen in chiral carbon to oxygen in carboxyl, is 73.54 Kcal/mol. The research provides a theoretical reference to further realize some important application value over the chiral transition reaction control of point chiral molecule.

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COPYRIGHT: © Global Science Press

  • Email address

DLR5640@163.com (Li-Rong Dong)

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@Article{JAMS-5-289, author = {Wang , Zuo-ChengLiu , Feng-GeWang , Li-PingTong , HuaYu , Tian-Rong and Dong , Li-Rong}, title = {The Theoretical Research on the Chiral Transition of Ibuprofen Molecules under Isolated Conditions}, journal = {Journal of Atomic and Molecular Sciences}, year = {2014}, volume = {5}, number = {4}, pages = {289--300}, abstract = {

In this article, we do a research on the chiral shift process of the isolated alpha alanine molecule using the basis set of 6-31+g(d,p), which is based on density functional theory B3LYP. Furthermore, the chiral transition path reaction potential energy surface of ibuprofen molecule is drawn by looking for the extreme value point structure including the transition state and intermediate. Finally, the geometry and electronic structure properties of extreme value point are also analyzed. The results show that there are two achieve reaction paths of ibuprofen from S-type to R-type. Path 1 consists of three transition states and two intermediate states. Path 2 includes four transition states and three intermediate states. On the reaction path, the greatest barrier which is from the transfer of hydrogen in chiral carbon to oxygen in carboxyl, is 73.54 Kcal/mol. The research provides a theoretical reference to further realize some important application value over the chiral transition reaction control of point chiral molecule.

}, issn = {2079-7346}, doi = {https://doi.org/10.4208/jams.022514.031414a}, url = {http://global-sci.org/intro/article_detail/jams/8295.html} }
TY - JOUR T1 - The Theoretical Research on the Chiral Transition of Ibuprofen Molecules under Isolated Conditions AU - Wang , Zuo-Cheng AU - Liu , Feng-Ge AU - Wang , Li-Ping AU - Tong , Hua AU - Yu , Tian-Rong AU - Dong , Li-Rong JO - Journal of Atomic and Molecular Sciences VL - 4 SP - 289 EP - 300 PY - 2014 DA - 2014/05 SN - 5 DO - http://doi.org/10.4208/jams.022514.031414a UR - https://global-sci.org/intro/article_detail/jams/8295.html KW - Chiral, Ibuprofen, Density functional theory, Transition state. AB -

In this article, we do a research on the chiral shift process of the isolated alpha alanine molecule using the basis set of 6-31+g(d,p), which is based on density functional theory B3LYP. Furthermore, the chiral transition path reaction potential energy surface of ibuprofen molecule is drawn by looking for the extreme value point structure including the transition state and intermediate. Finally, the geometry and electronic structure properties of extreme value point are also analyzed. The results show that there are two achieve reaction paths of ibuprofen from S-type to R-type. Path 1 consists of three transition states and two intermediate states. Path 2 includes four transition states and three intermediate states. On the reaction path, the greatest barrier which is from the transfer of hydrogen in chiral carbon to oxygen in carboxyl, is 73.54 Kcal/mol. The research provides a theoretical reference to further realize some important application value over the chiral transition reaction control of point chiral molecule.

Zuo-Cheng Wang, Feng-Ge Liu, Li-Ping Wang, Hua Tong, Tian-Rong Yu & Li-Rong Dong. (2019). The Theoretical Research on the Chiral Transition of Ibuprofen Molecules under Isolated Conditions. Journal of Atomic and Molecular Sciences. 5 (4). 289-300. doi:10.4208/jams.022514.031414a
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