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Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC PDF Download

Chelate Complexes

Ligands like chloride, water, and ammonia are monodentate More complex ligands can, however, be bidentate, tridentate, or, in general, polydentate Ethylenediamine (H2NCH2CH2NH2, often abbreviated as en) and diethylenetriamine (H2NCH2CH2NHCH2CH2NH2, often abbreviated as dien) are examples of a bidentate and a tridentate ligand, respectively, because each nitrogen atom has a lone pair that can be shared with a metal ion. When a bidentate ligand such as ethylenediamine binds to a metal such as Ni2+, a five-membered ring is formed. A metal-containing ring like that shown is called a chelate ring. Correspondingly, a polydentate ligand is a chelating agent, and complexes that contain polydentate ligands are called chelate complexes.
Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSCExperimentally, it is observed that metal complexes of polydentate ligands are significantly more stable than the corresponding complexes of chemically similar monodentate ligands; this increase in stability is called the chelate effect. For example, the complex of Ni2+ with three ethylenediamine ligands, [Ni(en)3]2+, should be chemically similar to the Ni2+ complex with six ammonia ligands, [Ni(NH3)6]2+. In fact, the equilibrium constant for the formation of [Ni(en)3]2+ is almost 10 orders of magnitude larger than the equilibrium constant for the formation of [Ni(NH3)6]2+.
Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC

The formation constants are formulated as ligand exchange reactions with aqua ligands being displaced by new ligands (NH3 or en) in the examples above.

Chelate complexes are more stable than the analogous complexes with monodentate ligands.

The stability of a chelate complex depends on the size of the chelate rings. For ligands with a flexible organic backbone like ethylenediamine, complexes that contain five-membered chelate rings, which have almost no strain, are significantly more stable than complexes with six-membered chelate rings, which are in turn much more stable than complexes with four- or seven-membered rings. For example, the complex of nickel (II) with three ethylenediamine ligands is about 363,000 times more stable than the corresponding nickel (II) complex with trimethylenediamine (H2NCH2CH2CH2NH2, abbreviated as tn):
Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC
*The above measurements were done in a solution of ionic strength 0.15 at 25º C.

Solved Examples

Example 1: Arrange Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC in order of increasing stability.
Given: four Cr(III) complexes
Asked for: relative stabilities
Strategy: A Determine the relative basicity of the ligands to identify the most stable complexes.
B Decide whether any complexes are further stabilized by a chelate effect and arrange the complexes in order of increasing stability.
Ans: 
A The metal ion is the same in each case: Cr3+. Consequently, we must focus on the properties of the ligands to determine the stabilities of the complexes. Because the stability of a metal complex increases as the basicity of the ligands increases, we need to determine the relative basicity of the four ligands. Our earlier discussion of acid–base properties suggests that ammonia and ethylenediamine, with nitrogen donor atoms, are the most basic ligands. The fluoride ion is a stronger base (it has a higher charge-to-radius ratio) than chloride, so the order of stability expected due to ligand basicity is
Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC

B Because of the chelate effect, we expect ethylenediamine to form a stronger complex with Cr3+ than ammonia. Consequently, the likely order of increasing stability is

Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC

Example 2: Arrange Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC in order of decreasing stability.
Ans:
 Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC

The Chelate Effect

The chelate effect can be seen by comparing the reaction of a chelating ligand and a metal ion with the corresponding reaction involving comparable monodentate ligands. For example, comparison of the binding of 2,2'-bipyridine with pyridine or 1,2-diaminoethane (ethylenediamine=en) with ammonia. It has been known for many years that a comparison of this type always shows that the complex resulting from coordination with the chelating ligand is much more thermodynamically stable. This can be seen by looking at the values for adding two monodentates compared with adding one bidentate, or adding four monodentates compared to two bidentates, or adding six monodentates compared to three bidentates.

The Chelate Effect is that complexes resulting from coordination with the chelating ligand is much more thermodynamically stable than complexes with non-chelating ligands.

A number of points should be highlighted from the formation constants. The ΔH° values for the formation steps are almost identical, that is, heat is evolved to about the same extent whether forming a complex involving monodentate ligands or bidentate ligands. What is seen to vary significantly is the ΔS° term which changes from negative (unfavorable) to positive (favorable). Note as well that there is a dramatic increase in the size of the ΔS° term for adding two compared to adding four monodentate ligands. (-5 to -35 JK-1mol-1). What does this imply, if we consider ΔS° to give a measure of disorder?

In the case of complex formation of Ni2+ with ammonia or 1,2-diaminoethane, by rewriting the equilibria, the following equations are produced.
Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSCUsing the equilibrium constant for the reaction (3 above) where the three bidentate ligands replace the six monodentateligands, we find that at a temperature of 25° C:
Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC

Based on measurements made over a range of temperatures, it is possible to break down the ΔG term into the enthalpy and entropy components.
Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC

It will be seen that on the left-hand-side there are 4 species, whereas on the right-hand-side there are 7 species, that is a net gain of 3 species occurs as the reaction proceeds. This can account for the increase in entropy since it represents an increase in the disorder of the system. An alternative view comes from trying to understand how the reactions might proceed. To form a complex with 6 monodentates requires 6 separate favorable collisions between the metal ion and the ligand molecules. To form the tris-bidentate metal complex requires an initial collision for the first ligand to attach by one arm but remember that the other arm is always going to be nearby and only requires a rotation of the other end to enable the ligand to form the chelate ring.

If you consider dissociation steps, then when a monodentate group is displaced, it is lost into the bulk of the solution. On the other hand, if one end of a bidentate group is displaced the other arm is still attached and it is only a matter of the arm rotating around and it can be reattached again. Both conditions favor the formation of the complex with bidentate groups rather than monodentate groups.

Question for Thermodynamic Stability of Metal Complexes
Try yourself:
Which of the following ligands is an example of a tridentate ligand?
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The document Thermodynamic Stability of Metal Complexes | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Thermodynamic Stability of Metal Complexes - Chemistry Optional Notes for UPSC

1. What are chelate complexes?
Ans. Chelate complexes are coordination compounds in which a central metal ion is bonded to a ligand through multiple coordination sites, forming a ring-like structure. The ligand, known as a chelating agent, usually contains two or more donor atoms that coordinate with the metal ion.
2. What is the chelate effect?
Ans. The chelate effect refers to the enhanced stability of chelate complexes compared to complexes formed with monodentate ligands. This increased stability is due to the formation of a more stable ring structure and the chelating agent's ability to donate multiple coordination sites to the metal ion.
3. What factors affect the thermodynamic stability of metal complexes?
Ans. Several factors influence the thermodynamic stability of metal complexes. These include the nature of the metal ion, the type and number of coordinating atoms in the ligand, the chelate effect, and the overall charge and size of the complex. Additionally, pH, temperature, and solvent can also impact the stability of metal complexes.
4. How does the chelate effect contribute to the stability of metal complexes?
Ans. The chelate effect enhances the stability of metal complexes by increasing the effective concentration of the ligand around the metal ion. The formation of a chelate ring restricts the movement of the ligand, reducing the entropy of the system and making it more favorable. This increased stability is particularly significant when dealing with transition metal ions.
5. How are chelate complexes relevant to the UPSC exam?
Ans. The understanding of chelate complexes and the chelate effect is relevant to the UPSC exam in the context of chemistry and coordination compounds. Questions related to the thermodynamic stability of metal complexes, the chelate effect, and factors influencing stability may be asked in the exam to assess the candidates' knowledge in this area.
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