Reaction pathways design based on the associative property of addition

The associative property of addition facilitates the change of the group member. If the group members are molecules, can we apply this property to study a chemical reaction? The aim of this paper is to use the associative property of addition to design reaction pathways of methyl acetate hydrolysis...

Full description

Bibliographic Details
Main Authors: Fitri N. Febriana, Fitri N. Febriana, Siti N. Nafisah, Siti N. Nafisah, Lusia S. P. Boli, Lusia S. P. Boli, Rizka N. Fadilla, Rizka N. Fadilla, Wun, F. Mark-Lee, Ira Puspitasari, Ira Puspitasari, Febdian Rusydi, Febdian Rusydi
Format: Conference or Workshop Item
Published: 2023
Subjects:
_version_ 1817854277377327104
author Fitri N. Febriana, Fitri N. Febriana
Siti N. Nafisah, Siti N. Nafisah
Lusia S. P. Boli, Lusia S. P. Boli
Rizka N. Fadilla, Rizka N. Fadilla
Wun, F. Mark-Lee
Ira Puspitasari, Ira Puspitasari
Febdian Rusydi, Febdian Rusydi
author_facet Fitri N. Febriana, Fitri N. Febriana
Siti N. Nafisah, Siti N. Nafisah
Lusia S. P. Boli, Lusia S. P. Boli
Rizka N. Fadilla, Rizka N. Fadilla
Wun, F. Mark-Lee
Ira Puspitasari, Ira Puspitasari
Febdian Rusydi, Febdian Rusydi
author_sort Fitri N. Febriana, Fitri N. Febriana
collection ePrints
description The associative property of addition facilitates the change of the group member. If the group members are molecules, can we apply this property to study a chemical reaction? The aim of this paper is to use the associative property of addition to design reaction pathways of methyl acetate hydrolysis in the acid environment. The reaction is found in Alzheimer’s Disease. We evaluate the designed pathways using activation energy obtained from density functional theory calculation. The results show the associative property of addition can be used to design four reaction pathways of the hydrolysis. The calculations show the acidity significantly affected the activation energy. This result agrees with the common knowledge. Hence, we have demonstrated the usefulness of the associative property of addition in designing chemical reaction pathways.
first_indexed 2024-12-08T06:55:35Z
format Conference or Workshop Item
id utm.eprints-108248
institution Universiti Teknologi Malaysia - ePrints
last_indexed 2024-12-08T06:55:35Z
publishDate 2023
record_format dspace
spelling utm.eprints-1082482024-11-11T07:51:56Z http://eprints.utm.my/108248/ Reaction pathways design based on the associative property of addition Fitri N. Febriana, Fitri N. Febriana Siti N. Nafisah, Siti N. Nafisah Lusia S. P. Boli, Lusia S. P. Boli Rizka N. Fadilla, Rizka N. Fadilla Wun, F. Mark-Lee Ira Puspitasari, Ira Puspitasari Febdian Rusydi, Febdian Rusydi QD Chemistry The associative property of addition facilitates the change of the group member. If the group members are molecules, can we apply this property to study a chemical reaction? The aim of this paper is to use the associative property of addition to design reaction pathways of methyl acetate hydrolysis in the acid environment. The reaction is found in Alzheimer’s Disease. We evaluate the designed pathways using activation energy obtained from density functional theory calculation. The results show the associative property of addition can be used to design four reaction pathways of the hydrolysis. The calculations show the acidity significantly affected the activation energy. This result agrees with the common knowledge. Hence, we have demonstrated the usefulness of the associative property of addition in designing chemical reaction pathways. 2023 Conference or Workshop Item PeerReviewed Fitri N. Febriana, Fitri N. Febriana and Siti N. Nafisah, Siti N. Nafisah and Lusia S. P. Boli, Lusia S. P. Boli and Rizka N. Fadilla, Rizka N. Fadilla and Wun, F. Mark-Lee and Ira Puspitasari, Ira Puspitasari and Febdian Rusydi, Febdian Rusydi (2023) Reaction pathways design based on the associative property of addition. In: International Conference on Mathematics, Computational Sciences, and Statistics 2022, ICoMCoS 2022, 2 October 2022- 3 October 2022, Surabaya, Indonesia. http://dx.doi.org/10.1063/5.0181347
spellingShingle QD Chemistry
Fitri N. Febriana, Fitri N. Febriana
Siti N. Nafisah, Siti N. Nafisah
Lusia S. P. Boli, Lusia S. P. Boli
Rizka N. Fadilla, Rizka N. Fadilla
Wun, F. Mark-Lee
Ira Puspitasari, Ira Puspitasari
Febdian Rusydi, Febdian Rusydi
Reaction pathways design based on the associative property of addition
title Reaction pathways design based on the associative property of addition
title_full Reaction pathways design based on the associative property of addition
title_fullStr Reaction pathways design based on the associative property of addition
title_full_unstemmed Reaction pathways design based on the associative property of addition
title_short Reaction pathways design based on the associative property of addition
title_sort reaction pathways design based on the associative property of addition
topic QD Chemistry
work_keys_str_mv AT fitrinfebrianafitrinfebriana reactionpathwaysdesignbasedontheassociativepropertyofaddition
AT sitinnafisahsitinnafisah reactionpathwaysdesignbasedontheassociativepropertyofaddition
AT lusiaspbolilusiaspboli reactionpathwaysdesignbasedontheassociativepropertyofaddition
AT rizkanfadillarizkanfadilla reactionpathwaysdesignbasedontheassociativepropertyofaddition
AT wunfmarklee reactionpathwaysdesignbasedontheassociativepropertyofaddition
AT irapuspitasariirapuspitasari reactionpathwaysdesignbasedontheassociativepropertyofaddition
AT febdianrusydifebdianrusydi reactionpathwaysdesignbasedontheassociativepropertyofaddition