Search
- https://chem.libretexts.org/Courses/East_Tennessee_State_University/CHEM_3110%3A_Descriptive_Inorganic_Chemistry/11%3A_Organometallic_ChemistryMetals cover a vast swath of the periodic table and include the alkali metals, alkali earth metals, transition metals, the main group metals, and the lanthanides and actinides. There’s a reason the “o...Metals cover a vast swath of the periodic table and include the alkali metals, alkali earth metals, transition metals, the main group metals, and the lanthanides and actinides. There’s a reason the “organo” comes first in “organometallic chemistry”—These catalysts usually the aid in the creation of new bonds in organic compounds, building up complex products from simple starting materials.
- https://chem.libretexts.org/Courses/Centre_College/CHE_332%3A_Inorganic_Chemistry/10%3A_Organometallic_ChemistryMetals cover a vast swath of the periodic table and include the alkali metals, alkali earth metals, transition metals, the main group metals, and the lanthanides and actinides. There’s a reason the “o...Metals cover a vast swath of the periodic table and include the alkali metals, alkali earth metals, transition metals, the main group metals, and the lanthanides and actinides. There’s a reason the “organo” comes first in “organometallic chemistry”—These catalysts usually the aid in the creation of new bonds in organic compounds, building up complex products from simple starting materials.
- https://chem.libretexts.org/Courses/Ripon_College/CHM_321%3A_Inorganic_Chemistry/06%3A_Organometallic_Chemistry/6.01%3A_Introduction_to_Organometallic_ChemistryThe Cl-Pt-Cl bond angles were near 90°. Overall, the structure could be described as a structure derived from a square planar structure with the ethylene as the fourth ligand that would stand perpendi...The Cl-Pt-Cl bond angles were near 90°. Overall, the structure could be described as a structure derived from a square planar structure with the ethylene as the fourth ligand that would stand perpendicular to the plane in order to minimize steric repulsion with the chloro ligands. Because of the donation of π-electrons in the cycopentadiene unit, the structure was called “ferrocene”. The ferrocene structure would explain the stability and low reactivity of the compound.
- https://chem.libretexts.org/Courses/Tennessee_State_University/CHEM_4210%3A_Inorganic_Chem_II_(Siddiquee)/06%3A_Catalysis/6.01%3A_Introduction_to_Organometallic_ChemistryThe Cl-Pt-Cl bond angles were near 90°. Overall, the structure could be described as a structure derived from a square planar structure with the ethylene as the fourth ligand that would stand perpendi...The Cl-Pt-Cl bond angles were near 90°. Overall, the structure could be described as a structure derived from a square planar structure with the ethylene as the fourth ligand that would stand perpendicular to the plane in order to minimize steric repulsion with the chloro ligands. Because of the donation of π-electrons in the cycopentadiene unit, the structure was called “ferrocene”. The ferrocene structure would explain the stability and low reactivity of the compound.
- https://chem.libretexts.org/Bookshelves/Inorganic_Chemistry/Inorganic_Chemistry_(LibreTexts)/13%3A_Organometallic_Chemistry/13.01%3A_Introduction_to_Organometallic_ChemistryThe Cl-Pt-Cl bond angles were near 90°. Overall, the structure could be described as a structure derived from a square planar structure with the ethylene as the fourth ligand that would stand perpendi...The Cl-Pt-Cl bond angles were near 90°. Overall, the structure could be described as a structure derived from a square planar structure with the ethylene as the fourth ligand that would stand perpendicular to the plane in order to minimize steric repulsion with the chloro ligands. Because of the donation of π-electrons in the cycopentadiene unit, the structure was called “ferrocene”. The ferrocene structure would explain the stability and low reactivity of the compound.
- https://chem.libretexts.org/Courses/Ursinus_College/CHEM322%3A_Inorganic_Chemistry/10%3A_Organometallic_Chemistry/10.01%3A_Organometallic_Complexes/10.1.01%3A_Introduction_to_Organometallic_ChemistryThe Cl-Pt-Cl bond angles were near 90°. Overall, the structure could be described as a structure derived from a square planar structure with the ethylene as the fourth ligand that would stand perpendi...The Cl-Pt-Cl bond angles were near 90°. Overall, the structure could be described as a structure derived from a square planar structure with the ethylene as the fourth ligand that would stand perpendicular to the plane in order to minimize steric repulsion with the chloro ligands. Because of the donation of π-electrons in the cycopentadiene unit, the structure was called “ferrocene”. The ferrocene structure would explain the stability and low reactivity of the compound.
- https://chem.libretexts.org/Courses/East_Tennessee_State_University/CHEM_4110%3A_Advanced_Inorganic_Chemistry/10%3A_Organometallic_Chemistry/10.01%3A_Introduction_to_Organometallic_ChemistryThe Cl-Pt-Cl bond angles were near 90°. Overall, the structure could be described as a structure derived from a square planar structure with the ethylene as the fourth ligand that would stand perpendi...The Cl-Pt-Cl bond angles were near 90°. Overall, the structure could be described as a structure derived from a square planar structure with the ethylene as the fourth ligand that would stand perpendicular to the plane in order to minimize steric repulsion with the chloro ligands. Because of the donation of π-electrons in the cycopentadiene unit, the structure was called “ferrocene”. The ferrocene structure would explain the stability and low reactivity of the compound.
