Amphidentate definitions
| Word backwards | etatnedihpma |
|---|---|
| Part of speech | Amphidentate is an adjective. |
| Syllabic division | am-phi-den-tate |
| Plural | The plural form of "amphidentate" is "amphidentates." |
| Total letters | 12 |
| Vogais (3) | a,i,e |
| Consonants (6) | m,p,h,d,n,t |
Amphidentate refers to a type of coordination compound that contains a ligand with two donor atoms. This ligand can bind to a central metal atom or ion through two separate sites. The term "amphidentate" is derived from the combination of "amphi," meaning both or two, and "dentate," which refers to the donating atoms of a ligand.
Coordination Chemistry
In coordination chemistry, ligands are molecules or ions that can donate electrons to a central metal atom or ion to form a coordination complex. Amphidentate ligands are unique in that they have two distinct sites where they can bond to the central metal. This dual bonding capability contributes to the overall stability and structure of the coordination complex.
Chelating Ligands
Amphidentate ligands are considered chelating ligands because they have more than one atom that can coordinate with the metal center. This results in the formation of a ring structure known as a chelate. Chelation enhances the stability of the complex and can also influence its reactivity and properties.
Examples of Amphidentate Ligands
Common examples of amphidentate ligands include ethylenediamine (en), which has two amine groups that can coordinate with a metal ion, and oxalate, which contains two oxygen atoms capable of binding to a metal center. These ligands play a crucial role in various fields such as bioinorganic chemistry, catalysis, and material science.
Overall, amphidentate ligands are important components of coordination chemistry due to their ability to form stable complexes with metal ions through multiple donor atoms. Understanding the structure and properties of these ligands is essential for the design and study of coordination compounds in various applications.
Amphidentate Examples
- The amphidentate ligand binds to the metal ion through two donor atoms.
- The coordination complex exhibited an interesting amphidentate behavior.
- The amphidentate ligand forms stable complexes with transition metals.
- The synthesis of a new amphidentate ligand was reported in the literature.
- The amphidentate ligand showed enhanced stability in the presence of oxygen.
- The research project focused on the development of amphidentate coordination compounds.
- The amphidentate ligand exhibited unique chelating properties in the solution.
- The amphidentate ligand coordinated with the metal ion in a bidentate manner.
- The study investigated the amphidentate binding mode of the ligand in the complex.
- The coordination chemistry of amphidentate ligands is a growing field of research.