Inorganic Complex Compounds: Theory, Properties & Applications | Coordination Chemistry Explained
1Inorganic Complex Compounds: Theory, Properties & Applications | Coordination Chemistry Explained
🔬 Dive into the fascinating world of Inorganic Complex Compounds! This video covers the basic theories (VBT, CFT, MOT), physicochemical properties, and real-world applications of coordination compounds in a simple and engaging way.
📖 What You’ll Learn:
✔ Introduction to Complex Compounds – How central metal atoms bond with ions/molecules.
✔ Key Theories – Valence Bond Theory (VBT), Crystal Field Theory (CFT), Molecular Orbital Theory (MOT).
✔ Properties & Behavior – Color, spectra, magnetic properties, and stability.
✔ Synthesis & Reactions – Preparation methods and chemical behavior.
✔ Biological & Industrial Applications – Role in medicine, enzymes, and industrial processes.
📊 Visual Learning Aids:
Tables & Figures for better understanding.
Clear Examples (e.g., NaBF₄, FeCl₃·6H₂O).
Coordination Sphere Breakdown – 1st (covalent) vs. 2nd (ionic).
🌍 Why It Matters?
Coordination chemistry is essential in biology, medicine, and technology—helping us understand enzyme functions, drug design, and material science!
🙏 Final Thoughts:
A tribute to nature—the greatest scientist—whose mysteries inspire chemistry and life itself.
📌 Chapters Covered:
1️ ⃣ Basics of Complex Compounds
2️ ⃣ Theories (VBT, CFT, MOT)
3️ ⃣ Physical & Chemical Properties
4️ ⃣ Synthesis & Reactions
5️ ⃣ Spectroscopic & Magnetic Behavior
6️ ⃣ Biological & Industrial Uses
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#CoordinationChemistry #InorganicChemistry #ComplexCompounds #VBT #CFT #MOT #ChemistryExplained #ScienceEducation #BiologicalChemistry #chemistrystudents
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Basics of Coordination Chemistry and Its Application
Layman Abstract :
This work explains the basic ideas and important properties of inorganic complex compounds in a clear and simple way. It covers key theories—like Valence Bond Theory (VBT), Crystal Field Theory (CFT), and Molecular Orbital Theory (MOT)—and uses helpful tables and diagrams to show how these compounds are made, how they react, their colours, spectra, and magnetic behavior. It also highlights how these compounds are widely used in biology. From Chapter I to VI, the book presents all the main theories, properties, and real-world uses of complex compounds in a fresh and easy-to-understand style.
To read other sections of this article plehttps://bookstore.bookpi.org/.bookpi.org
🔎 Your Queries
Coordination Chemistry
Inorganic Complex Compounds
VBT CFT MOT in Chemistry
Valence Bond Theory (VBT)
Crystal Field Theory (CFT)
Molecular Orbital Theory (MOT)
Coordination Compounds Class 12
Werner’s Theory of Coordination Compounds
Metal-Ligand Bonding
Coordination Number and Geometry
Spectroscopic Properties of Complexes
Magnetic Properties of Coordination Compounds
Colour in Coordination Compounds
Isomerism in Coordination Compounds
Stability of Complex Ions
Applications of Coordination Compounds
Biological Importance of Coordination Compounds
Hemoglobin and Chlorophyll as Complexes
Chelates and Chelation
Naming Coordination Compounds (IUPAC)
Ligands in Coordination Chemistry
CFT Splitting in Octahedral Complexes
Jahn-Teller Effect in Coordination Compounds
Industrial Uses of Coordination Compounds
Coordination Chemistry NEET/JEE