Year : 2025 | Volume : 15 | Issue : 02 | Page : 23 30

Ukpaka Chukwuemeka Peter,

Joy Chukwuemeka Peter Ukpaka,

Victor Chukwuemeka Ukpaka,

Abraham Peter Ukpaka,

Professor, Department of Chemical/Petrochemical Engineering, Rivers State University Port Harcourt,, Rivers State, Nigeria
Student, College of Allied Medical Sciences, Department of Pharmacy, Lyceum of the Philippines University, Cavite, Nigeria
Student, College of Engineering, Computer Studies and Architecture, Department of Industrial Engineering, Lyceum of the Philippines University, Cavite, Nigeria
Research Student, College of Engineering, Computer Studies and Architecture, Department of Computer Engineering, Lyceum of the Philippines University, Cavite, Nigeria

Abstract

Group III elements comprise those found in the third column of the periodic table, including boron, aluminum, gallium, indium, and thallium. These elements possess three valence electrons in their outermost shell, characterized by the electron configuration ns2np1, which influences their location and characteristics within the periodic table. The distribution of electron pairs, formal charges, oxidation states, and molecular morphologies of Group III elements and their compounds are illustrated in this study using Lewis structures. Lewis structures provide a visual depiction of a molecule’s valence electrons and bonds. For five representative compounds associated with each element—specifically trihalides, oxides, hydroxides, boranes, and aluminosilicates—Lewis structures were constructed following established rules and conventions. Using the concepts of Lewis structures and VSEPR (valence shell electron pair repulsion) theory, the study also computed the formal charges, oxidation states, and molecular shapes of Group III compounds. The findings indicated that Group III elements predominantly form compounds with a +3 oxidation state by relinquishing all three valence electrons; however, certain elements may also yield compounds with a +1 oxidation state by losing just the np electron. Additionally, the results highlighted that Group III elements can create various types of compounds with differing bond types and polarities, influenced by the electronegativity and valence of other atoms. The study further revealed that the reactivities and applications of Group III elements vary based on their bonding characteristics and oxidation states. Lewis structures are useful for understanding the bonding and reactivity of Group III elements and related compounds, according to the study’s overall findings. Nonetheless, it is important to acknowledge the limitations of Lewis structures, which include their inability to accurately represent the true shape of molecules, to account for resonance or hybridization, and to provide precise data on bond lengths and angles. Therefore, additional approaches and strategies, like valence bond theory or molecular orbital theory, might be used to improve and confirm the results of this investigation

Keywords: Configuration, properties, Group III elements, periodic table

[This article belongs to Journal of Materials & Metallurgical Engineering ]

How to cite this article:
Ukpaka Chukwuemeka Peter, Joy Chukwuemeka Peter Ukpaka, Victor Chukwuemeka Ukpaka, Abraham Peter Ukpaka. Configuration and Properties of Group III Elements in the Periodic Table. Journal of Materials & Metallurgical Engineering. 2025; 15(02):23-30.

How to cite this URL:
Ukpaka Chukwuemeka Peter, Joy Chukwuemeka Peter Ukpaka, Victor Chukwuemeka Ukpaka, Abraham Peter Ukpaka. Configuration and Properties of Group III Elements in the Periodic Table. Journal of Materials & Metallurgical Engineering. 2025; 15(02):23-30. Available from: https://journals.stmjournals.com/jomme/article=2025/view=233437

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Regular Issue Subscription Review Article

Journal of Materials & Metallurgical Engineering

ISSN: 2231-3818

Volume	15
Issue	02
Received	15/03/2025
Accepted	19/03/2025
Published	03/04/2025
Publication Time	19 Days

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