Presentation is loading. Please wait.

Presentation is loading. Please wait.

Mr.Halavath Ramesh 16-MCH-001 Dept. of Chemistry Loyola College University of Madras-Chennai.

Published byHalavath Ramesh Modified over 5 years ago

Similar presentations

Presentation on theme: "Mr.Halavath Ramesh 16-MCH-001 Dept. of Chemistry Loyola College University of Madras-Chennai."— Presentation transcript:

1 Mr.Halavath Ramesh 16-MCH-001 Dept. of Chemistry Loyola College University of Madras-Chennai

2 Properties of Transition Elements: 1.have large charge / radius ratio. 2. Are hard and have high densities. 3. Have high melting and Boiling point.4. From compounds which are often paramagnetic. 5. Show Variable Oxidation states.6. Form colored ions and compounds.7. Form compounds with profound catalytic activity. 8.Form stable complexes.

3

4

5

6 In the modern periodic table elements are classified into four types based on electronic configuration 1.S-block elements 2.P-block elements 3.d- block elements 4.f- block elements The elements whose differentiating electrons enter into (n-1)d sub-level are called d-block elements. The d-block elements in which the atoms or ions having incomplete d-orbitals are called transition elements. A typical transition element shall have an incompletely filled d-sub level either in its elementals form or in any of its chemically significant oxidation state. Therefore all d-block elements are not true transition elements e.g. Zn, Cd, and Hg Exceptional Configuration of Some d-block elements: ** The elements with exceptional configuration in 3d series are Cr(24) ……[Ar] 3d5 4s1 Cu(29)……[Ar] 3d10 4s1

7 Crystal Field Theory (CFT) Crystal Field Theory (CFT) describes the breaking of degeneracy's of electron orbital state usually d or f orbital's due to a static electric field produced by a surrounding charge distribution (anion neighbors).This theory has been used to describe various spectroscopes of transition metal coordination complexes in particular optical spectra (colors). According to the crystal field theory the interaction between a transitions metal and ligands arises from the attraction between the positively charged metal cat ions and the negatively charge on the non-bonding electrons of the ligands. The electron in the d-orbitals and those in the Ligand repel each other due to repulsion between like charges. Thus the d-electrons closer to the ligands will have a higher energy than those further away which results in the d-orbitals splitting in energy.This splitting is affected by the following factors. 1.The Nature of the metal ion. 2. The metal oxide state.A higher oxidation state leads to a larger splitting relative to the spherical field. 3. The arrangement of the ligands around the metal ion. 4.The co ordination number of the metal (i.e., tetrahedral,octahedral). 5. The nature of the ligands surrounding the metal ion. The stronger the effect of the ligands then the greater the difference between the high and low energy d groups.

8

9

10

11

Download ppt "Mr.Halavath Ramesh 16-MCH-001 Dept. of Chemistry Loyola College University of Madras-Chennai."

Similar presentations

Electrons Review and Periodic Table Trends

Electrons Review and Periodic Table Trends
Mysteries of polarized light Enantiomers have identical properties except in one respect: the rotation of the plane of polarization of light Enantiomers.

Mysteries of polarized light Enantiomers have identical properties except in one respect: the rotation of the plane of polarization of light Enantiomers.
COLOR OF THE TRANSITION ELEMENTS

COLOR OF THE TRANSITION ELEMENTS
Introducing Transition Metals

Introducing Transition Metals
4th period d-block elements 4th Period. d-block elements  center block of periodic table transition elements d-sub level partially filled in one or more.

4th period d-block elements 4th Period. d-block elements  center block of periodic table transition elements d-sub level partially filled in one or more.
Colour and the d block. UV / Vis frequencies are have photons with energies of the sort of values needed to promote electrons from their ground state.

Colour and the d block. UV / Vis frequencies are have photons with energies of the sort of values needed to promote electrons from their ground state.
Bonding IB Chemistry 2 Robinson High School Andrea Carver.

Bonding IB Chemistry 2 Robinson High School Andrea Carver.
Ionic Compounds Notes. The octet rule states that atoms will gain or lose electrons in order to fill the outer valence level of eight electrons. Noble.

Ionic Compounds Notes. The octet rule states that atoms will gain or lose electrons in order to fill the outer valence level of eight electrons. Noble.
Big-picture perspective: The interactions of the d orbitals with their surrounding chemical environment (ligands) influences their energy levels, and this.

Big-picture perspective: The interactions of the d orbitals with their surrounding chemical environment (ligands) influences their energy levels, and this.
Transition Metal Chemistry The Chemistry of the d-block elements.

Transition Metal Chemistry The Chemistry of the d-block elements.
CHAPTER 5: CRYSTAL FIELD THEORY

CHAPTER 5: CRYSTAL FIELD THEORY
Chap 24 Part 2 Color and Magnetism  The color of the complex is the sum of the light not absorbed (reflected) by the complex.Color Color of a complex.

Chap 24 Part 2 Color and Magnetism  The color of the complex is the sum of the light not absorbed (reflected) by the complex.Color Color of a complex.
Crystal Field Theory i) Separate metal and ligands have high energy ii) Coordinated Metal - ligand get stabilized iii) Metal and Ligands act as point charges.

Crystal Field Theory i) Separate metal and ligands have high energy ii) Coordinated Metal - ligand get stabilized iii) Metal and Ligands act as point charges.
Bonding IB Chemistry 2 Robinson High School Andrea Carver.

Bonding IB Chemistry 2 Robinson High School Andrea Carver.
Title: Lesson 7 Colour Complexes and Catalysts Learning Objectives: Understand the origin of colour in transition metal complexes Understand the uses of.

Title: Lesson 7 Colour Complexes and Catalysts Learning Objectives: Understand the origin of colour in transition metal complexes Understand the uses of.
Co-ordination Chemistry Theories of Bonding in Co-ordination compound. 1. Valence Bond Theory 2. Crystal Field Theory 3. Molecular Orbital Theory.

Co-ordination Chemistry Theories of Bonding in Co-ordination compound. 1. Valence Bond Theory 2. Crystal Field Theory 3. Molecular Orbital Theory.
The Chemistry of Coordination Compounds Chapter 20 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

The Chemistry of Coordination Compounds Chapter 20 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Transition Metals.

Transition Metals.
1 Color of Transition Metal Ions in Water Solution.

1 Color of Transition Metal Ions in Water Solution.
IONIC BONDING. STRUCTURE AND BONDING The physical properties of a substance depend on its structure and type of bonding present. Bonding determines the.

IONIC BONDING. STRUCTURE AND BONDING The physical properties of a substance depend on its structure and type of bonding present. Bonding determines the.

Similar presentations

Ads by Google