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Chapter 23: Problem 31

(a) What is meant by the term chelate effect? (b) What thermodynamic factor is generally responsible for the chelate effect? (c) Why are polydentate ligands often called sequestering agents?

Short Answer

Expert verified
(a) The chelate effect refers to the enhanced stability of a complex formed by a polydentate ligand binding to a metal ion, compared to a monodentate ligand, due to the formation of chelate rings. (b) Entropy is the thermodynamic factor responsible for the chelate effect, as the increase in overall entropy due to the release of multiple counter ions makes chelate complex formation more favorable. (c) Polydentate ligands are called sequestering agents because they can capture and form stable complexes with metal ions, rendering them inactive for chemical reactions, which can be used for applications such as removing heavy metal ions from a system.

Step by step solution

01

(a) Explaining the term chelate effect

A chelate effect refers to the enhanced stability of a complex, which is formed when a polydentate ligand (a ligand that can bind to a metal ion through more than one place) binds to a metal ion as compared to the stability of a complex formed with a monodentate ligand (a ligand that can bind through only one place). This increased stability is due to the formation of a ring-like structure, called a chelate ring, which involves both the central metal ion and the polydentate ligand.
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(b) Thermodynamic factor responsible for the chelate effect

The thermodynamic factor responsible for the chelate effect is entropy. When a polydentate ligand replaces monodentate ligands in a complex, there is an increase in the overall entropy of the system due to the release of multiple counter ions. This leads to a more positive (favorable) change in entropy, thus making the formation of the chelate complex thermodynamically more favorable compared to the formation of a complex with monodentate ligands.
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(c) Polydentate ligands as sequestering agents

Polydentate ligands are often called sequestering agents because they can "sequester," or capture and form stable complexes with metal ions, rendering them inactive or unavailable for chemical reactions. This property makes polydentate ligands useful for various applications, such as the removal of heavy metal ions from a system, as these complexes are thermodynamically stable due to the chelate effect and do not participate in further chemical reactions.

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Most popular questions from this chapter

Generally speaking, for a given metal and ligand, the stability of a coordination compound is greater for the metal in the \(+3\) rather than in the \(+2\) oxidation state (for metals that form stable \(+3\) ions in the first place). Suggest an explanation, keeping in mind the Lewis acid-base nature of the metalligand bond.

A four-coordinate complex \(\mathrm{MA}_{2} \mathrm{~B}_{2}\) is prepared and found to have two different isomers. Is it possible to determine from this information whether the complex is square planar or tetrahedral? If so, which is it?

The total concentration of \(\mathrm{Ca}^{2+}\) and \(\mathrm{Mg}^{2+}\) in a sample of hard water was determined by titrating a \(0.100\) - L sample of the water with a solution of EDTA \({ }^{4-}\). The EDTA \({ }^{4-}\) chelates the two cations: $$ \begin{aligned} \mathrm{Mg}^{2+}+[\mathrm{EDTA}]^{4-} & \longrightarrow[\mathrm{Mg}(\mathrm{EDTA})]^{2-} \\ \mathrm{Ca}^{2+}+\left[\mathrm{EDTA}^{4-}\right.& \longrightarrow[\mathrm{Ca}(\mathrm{EDTA})]^{2-} \end{aligned} $$ It requires \(31.5 \mathrm{~mL}\) of \(0.0104 \mathrm{M}[\mathrm{EDTA}]^{4-}\) solution to reach the end point in the titration. A second \(0.100-L\) sample was then treated with sulfate ion to precipitate \(\mathrm{Ca}^{2+}\) as calcium sulfate. The \(\mathrm{Mg}^{2+}\) was then titrated with \(18.7 \mathrm{~mL}\) of \(0.0104 \mathrm{M}\) [EDTA] ]- Calculate the concentrations of \(\mathrm{Mg}^{2+}\) and \(\mathrm{Ca}^{2+}\) in the hard water in mg/I.

For each of the following polydentate ligands, determine (i) the maximum number of coordination sites that the ligand can occupy on a single metal ion and (ii) the number and type of donor atoms in the ligand: (a) acetylacetonate ion (acac), (b) phenanthroline (phen), (c) diethylenetriamine, (d) carbonate ion, (e) triphosphate ion.

Carbon monoxide, \(\mathrm{CO}\), is an important ligand in coordination chemistry. When \(\mathrm{CO}\) is reacted with nickel metal the product is \(\left[\mathrm{Ni}(\mathrm{CO})_{4}\right]\), which is a toxic, pale yellow liquid. (a) What is the oxidation number for nickel in this compound? (b) Given that \(\left[\mathrm{Ni}(\mathrm{CO})_{4}\right]\) is diamagnetic molecule with a tetrahedral geometry, what is the electron configuration of nickel in this compound? (c) Write the name for \(\left[\mathrm{Nu}(\mathrm{CO})_{4}\right]\) using the nomenclature rules for coordination compounds.
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